Systems and methods for controlling media content based on user presence

ABSTRACT

Systems and methods are described for controlling media content based on user presence information. A user interaction with playing of a first media asset generated for presentation at a consumption device may be identified, and in response, historical wireless signal characteristics of a wireless network, over which wireless signals are used to generate for display the first media asset, may be determined. While a second media asset is generated for display, the second media asset at the consumption device may be modified based on user presence information determined by comparing current wireless signal characteristics of the wireless network to the historical wireless signal characteristics of the wireless network.

BACKGROUND

This disclosure is directed to systems and methods for controlling mediacontent based on user presence information, and selectively providingdata to service providers. In particular, techniques are disclosed formodifying presentation of a media asset at a consumption device based onthe user presence information, and techniques are disclosed fortransmitting wireless signal characteristics to a service provider basedon an authorization level of the service provider.

SUMMARY

Ubiquitous Internet connectivity has enabled modern media distributionsystems to provide users access to more media content than ever before.Content providers often provide media to users via network-connecteddevices within homes of users. Most residential households are served bycable or fiber connections as backhaul and connectivity coverage, anddistribution is achieved by Wi-Fi distribution. Wi-Fi connected devices(e.g., mobile phones, connected TVs) may communicate with a Wi-Fi routerand/or access point to transmit and receive data.

It may be useful to utilize Wi-Fi information to track human presenceand adjust behavior of one or more Wi-Fi connected devices on the basisof such Wi-Fi information. As an example, while content is beingprovided to, e.g., a television positioned in a particular room,consumers often move into another room or another floor of the home fora variety of reasons (e.g., to perform chores, in response to a packagedelivery, to retrieve food, etc.) and may forget to pause the contentduring this activity, or may underestimate the duration of the activityand intentionally decide not to pause the content. In such acircumstance, the content continues to play even if the user is notconsuming the content, which is undesirable for a number of reasons. Forexample, users may lose track of their position in the content and mayhave to rewind the content for an unspecified amount of time to find theposition they left off at. As another example, content providers may beburdened by consuming energy and wasting bandwidth on transmittingcontent that is not being consumed. In addition, the home network of theuser may unnecessarily consume energy, and other services (e.g., videoconferencing sessions) may be negatively affected due to the bandwidthwasted by, and throughput shared with, the unwatched content session.Moreover, due to the absence of the user in the room to consume content,the content provider may expend computing and networking resources togenerate and transmit supplemental content without any benefit to thecontent provider or the user.

In one approach, for sessions that have been going on for a relativelylong time, a content provider may pause videos when no user interactionhas been received, and may prompt a user to confirm that he or she isstill watching the content. However, responding to this prompt may befrustrating for a user who has been consuming the content all alongand/or is unable to answer the prompt in time (e.g., if there is acountdown, and the user cannot locate the remote for the television). Inanother approach, a camera may be employed to monitor whether a user isviewing content at a device. However, capturing images of a user viewingcontent may raise privacy concerns and the user may not want suchcameras to be present in his or her home.

In addition, many Wi-Fi connected devices are associated with serviceproviders that provide certain services in a home of a user, and suchservice providers aim to provide better services by monitoring user dataand/or an area surrounding the device. For example, a media applicationmay provide recommendations to a user based on the user's consumptionhabits, and an autonomous cleaning device may collect data as it cleansa home of a user, e.g., to learn locations of walls or furniture in thehome of the user. However, users often have little control over how muchdata and/or which kinds of data are shared with the service providers.

To help overcome these problems, systems and methods are provided hereinfor determining whether a user is present within a predefined vicinityof a consumption device while a media asset is generated for display,based on wireless signal characteristics of wireless signals transmittedfrom networking equipment to the consumption device over a wirelessnetwork. In some embodiments, the networking equipment, e.g., Wi-Fisystems equipped with MIMO (Multiple Input Multiple Output) may provideChannel State Information (CSI) for each corresponding set of transmitand receive antennas for particular carrier frequencies. Based on theuser presence information, the presentation of the second media asset atthe consumption device may be modified (e.g., to pause or stop the mediaasset if the user is determined to have moved to a location that isoutside a predefined vicinity surrounding the consumption device). Suchaspects enable leveraging wireless network characteristics, e.g.,correlating changes in how Radiofrequency (RF) energy is absorbed orreflected with whether someone or something is present or not and/orwhether someone or something is moving, to determine, without requiringuser input, whether a user has moved out of range of a consumptiondevice at which a media asset is generated for display. Accordingly, theexpenditure of unnecessary bandwidth, computing resources and networkingresources can be avoided by both content providers and users; users canautomatically retain their playing position of the media asset if theymove out of range of the consumption device during playing; and theproviding of supplemental content to an empty room can be avoided,thereby more efficiently utilizing bandwidth and energy. Moreover, theubiquitous availability of network devices may be leveraged, withoutimplicating the same privacy concerns of a camera.

In some embodiments, the systems and methods may be configured toidentify a user interaction with playing of a first media asset (e.g.,by detecting user input starting, ending or requesting trick-playing forthe first media asset) generated for presentation at a consumptiondevice, wherein the first media asset is generated for presentationusing wireless signals transmitted from networking equipment to theconsumption device over a wireless network. In response to theidentified user interaction, the provided systems and methods maydetermine historical wireless signal characteristics of the wirelessnetwork. In some embodiments, user presence may be verified usingtechniques separate from analyzing the historical wireless signalcharacteristics (e.g., a sensor such as, for example, a camera or asmart lock to detect user presence).

While a second media asset is generated for presentation at theconsumption device, the provided systems and methods may determinecurrent wireless signal characteristics of the wireless network;determine user presence information by comparing current wireless signalcharacteristics of the wireless network to the historical wirelesssignal characteristics of the wireless network; and modify thepresentation of the second media asset at the consumption device basedon the user presence information. Such aspects enable leveraginghistorical wireless signal characteristics (e.g., at a time when acommand, such as, for example, pause or rewind, is received at theconsumption device, and thus the user is likely within a predefineddistance from the consumption device) to determine user presenceinformation at a current time.

In addition, systems and methods are provided for determining wirelesssignal characteristics transmitted over a wireless network by networkequipment in a household; generating a map of a household based on thedetermined wireless signal characteristics; receiving an applicationprogramming interface (API) request from a service provider; determiningan authorization level of the service provider; identifying, based onthe authorization level of the service provider, at least one portion ofthe map and at least one of the wireless signal characteristics totransmit to the service provider; and transmitting, via the API, theidentified at least one portion of the map and at least one of thewireless signal characteristics to the service provider. Such aspectsenable selectively controlling which user data (e.g., related to userpresence in a particular room of a household) is provided to a serviceprovider, e.g., by providing certain data only to service providersauthorized to receive certain data. In some embodiments, the expenditureof computing resources may be reduced by determining, e.g., that datafor certain rooms of the household need not be processed, or thatcertain service providers may require less user data than others. Forexample, an autonomous cleaning service may merely be concerned whethera room is empty or not (e.g., to minimize the likelihood of usersobstructing a cleaning path of an autonomous cleaning device), whereas amedia recommendation service may desire to obtain information regardinghow many (and which) users are in a room (e.g., for mediarecommendations or to implement parental control functions). Moreover, auser may selectively decide how much data should be shared with certainnetwork-connected devices.

In some embodiments, the wireless network is a Wi-Fi network, and thehistorical wireless signal characteristics and current wireless signalcharacteristics correspond to channel state information. Modifying thepresentation of the media asset at the consumption device may compriseany suitable modification (e.g., trick play, pausing or stoppingpresentation of the media asset, etc.).

In some aspects of this disclosure, modifying the presentation of themedia asset at the consumption device based on the user presenceinformation comprises determining, based on the user presenceinformation, that a user has exited a vicinity of the consumption deviceand entered a vicinity of an additional consumption device, and causingthe second media asset to be generated for display at the additionalconsumption device. For example, wireless network characteristics mayindicate that a user, viewing a media asset on a device in a livingroom, has moved upstairs to a bedroom, and in response a device in thebedroom may be resumed from a point in the media asset at which the userexited the living room. In some embodiments, the determination that auser has exited a vicinity of the consumption device may be based on theuser being determined to be outside such vicinity for a predefinedperiod of time.

In some embodiments, determining user presence information by comparingthe current wireless signal characteristics of the wireless network tothe historical wireless signal characteristics of the wireless networkcomprises training a machine learning model using the historicalwireless signal characteristics, wherein the machine learning model istrained to output a determination of the user presence information;inputting the current wireless signal characteristics to the trainedmachine learning model; and determining, based on the determination ofthe user presence information output by trained machine learning model,whether a user is within a vicinity of the consumption device to enableconsumption of the second media asset. In some aspects of thisdisclosure, the historical wireless signal characteristics furthercomprise: wireless signal characteristics during a plurality of timesduring which the user is determined not to be within the vicinity of theconsumption device while a media asset is being generated forpresentation; and wireless signal characteristics during a plurality oftimes during which the user is determined to be within the vicinity ofthe consumption device while a media asset is being generated forpresentation.

In some aspects of this disclosure, the second media asset is providedby a content provider to a group user profile associated with aplurality of user profiles, and the method further comprisesdetermining, by the content provider and based on the user presenceinformation, that a first user associated with a first user profile isin a vicinity of the first consumption device; and automatically loggingin the first user to the first user profile.

In some embodiments, modifying the presentation of the second mediaasset at the consumption device based on the user presence informationcomprises instructing a server to refrain from providing supplementalcontent to the consumption device

In some aspects of this disclosure, based on the user presenceinformation, a plurality of times that the user exited a vicinity of theconsumption device during which a particular type of supplementalcontent was generated for presentation may be determined, and a level ofuser interest in the particular type of supplemental content may bedetermined based on the determined plurality of times. Such aspects maybe used to measure the effectiveness of supplemental content (e.g.,collecting a subset of motion data from multiple subscribers in responseto the playing of the supplemental content, such as whether one or moreusers left a room during the playing of the supplemental content, motiondata of users of certain demographics or located in certain regionsduring playing of supplemental content, etc.).

In some embodiments, a map of a household in which the consumptiondevice is located may be generated, wherein the map reflects a locationof the consumption device and a location of the networking equipment. Aprofile for each user in the household may be generated, and, based onthe current wireless signal characteristics, a determination may be madewhether a user in the vicinity of the consumption device is associatedwith a profile indicating an age of the user is below a predefined age.Modifying the presentation of the second media asset at the consumptiondevice may be performed in response to determining the user in thevicinity of the consumption device is associated with a profileindicating the age of the user is below the predefined age. For example,wireless signal characteristics may be indicative of a particular heightof a detected user (and/or whether a user ever interacts with mediaassets), which may be used to differentiate between an adult and a childand/or a pet.

In some aspects of this disclosure, based on the current wireless signalcharacteristics and the generated profiles, a determination may be madethat a first user of the plurality of users is no longer in the vicinityof the consumption device and a second user is in the vicinity of theconsumption device. Modifying the presentation of the second media assetat the consumption device may be performed in response to determiningthe first user is no longer in the vicinity of the consumption deviceand the second user is in the vicinity of the consumption device.

In some embodiments, a recommendation may be provided to a serviceprovider to subscribe to notifications related to the at least oneportion of the map and the at least one wireless signal characteristic,based on a service provided by the service provider.

In some aspects of this disclosure, the methods and systems furthercomprise determining the service provider is a first type of serviceprovider; determining one or more wireless signal characteristicsassociated with a particular room in the household that are not relevantto a service provided by the service provider; and declining to transmitthe one or more wireless signal characteristics to the service provider.The first type of service provider may be a media content provider.

In some embodiments, declining to transmit the one or more wirelesssignal characteristics to the service provider comprises declining toprocess the one or more wireless signal characteristics.

In some aspects of this disclosure, the methods and systems furthercomprise receiving an API request from an additional service provider;determining an authorization level of the additional service provider;identifying, based on the authorization level of the service provider,at least two portions of the map and at least two of the wireless signalcharacteristics to transmit to the additional service provider; andtransmitting, via the API, the identified at least two portions of themap and at least two of the wireless signal characteristics to theadditional service provider, wherein a greater number of portions of themap and of the wireless signal characteristics are transmitted to theadditional service provider than to the service provider. In someembodiments, the additional service provider provides a home securityservice or an autonomous home cleaning service.

In some embodiments, determining the wireless signal characteristicstransmitted over the wireless network by the network equipment in thehousehold comprises determining user presence information by comparingcurrent wireless signal characteristics of the wireless network tohistorical wireless signal characteristics of the wireless network. Insome aspects of this disclosure, the methods and systems furthercomprise training a machine learning model using the historical wirelesssignal characteristics, wherein the machine learning model is trained tooutput a determination of the user presence information.

BRIEF DESCRIPTION OF THE DRAWINGS

The present disclosure, in accordance with one or more variousembodiments, is described in detail with reference to the followingfigures. The drawings are provided for purposes of illustration only andmerely depict typical or example embodiments. These drawings areprovided to facilitate an understanding of the concepts disclosed hereinand should not be considered limiting of the breadth, scope, orapplicability of these concepts. It should be noted that for clarity andease of illustration, these drawings are not necessarily made to scale.

FIG. 1 shows a block diagram of an illustrative system for determiningand using user presence information, in accordance with some embodimentsof this disclosure.

FIG. 2 shows an illustrative map that may be utilized in determining andusing user presence information, in accordance with some embodiments ofthis disclosure.

FIG. 3 shows illustrative data structures of wireless signalcharacteristics, in accordance with some embodiments of this disclosure.

FIG. 4 shows an illustrative example of modifying presentation of amedia asset at a consumption device based on user presence information,in accordance with some embodiments of this disclosure;

FIG. 5 shows an illustrative example of modifying presentation of amedia asset at a consumption device based on user presence information,in accordance with some embodiments of this disclosure;

FIG. 6 shows an illustrative example of modifying presentation of amedia asset at a consumption device based on user presence information,in accordance with some embodiments of this disclosure;

FIG. 7 shows an illustrative example of modifying presentation of amedia asset at a consumption device based on user presence information,in accordance with some embodiments of this disclosure;

FIG. 8 shows an illustrative example of a machine learning model used todetermine user presence information, in accordance with some embodimentsof this disclosure;

FIG. 9 shows a block diagram of an illustrative system for transmittingwireless signal characteristics to a service provider based on anauthorization level of the service provider, in accordance with someembodiments of this disclosure;

FIG. 10 shows an illustrative system for transmitting wireless signalcharacteristics to a service provider based on an authorization level ofthe service provider, in accordance with some embodiments of thisdisclosure;

FIG. 11 shows an illustrative consumption device, in accordance withsome embodiments of this disclosure;

FIG. 12 shows a system for determining user presence information, inaccordance with some embodiments of this disclosure;

FIG. 13 is a flowchart of a detailed illustrative process fordetermining user presence information, in accordance with someembodiments of this disclosure;

FIG. 14 is a flowchart of a detailed illustrative process fordetermining user presence information, in accordance with someembodiments of this disclosure;

FIG. 15 is a flowchart of a detailed illustrative process for using amachine learning model to determine user presence information, inaccordance with some embodiments of this disclosure;

FIG. 16 is a flowchart of a detailed illustrative process for modifyingpresentation of a media asset based on user presence information, inaccordance with some embodiments of this disclosure; and

FIG. 17 is a flowchart of a detailed illustrative process fortransmitting wireless signal characteristics to a service provider basedon an authorization level of the service provider, in accordance withsome embodiments of this disclosure.

DETAILED DESCRIPTION

As referred to herein, the term “media asset” should be understood torefer to an electronically consumable user asset, e.g., televisionprogramming, as well as pay-per-view programs, on-demand programs (as invideo-on-demand (VOD) systems), Internet content (e.g., streamingcontent, downloadable content, webcasts, etc.), augmented realitycontent, virtual reality content, video clips, audio, playlists,websites, articles, electronic books, blogs, social media, applications,games, and/or any other media or multimedia, and/or combination of theabove.

FIG. 1 shows a block diagram of an illustrative system 100 fordetermining and using user presence information, in accordance with someembodiments of this disclosure. System 100 may comprise networkingequipment (e.g., router 102, mesh access point 104, mesh access point105), one or more Internet of Things (IOT) devices (e.g., Wi-Fi Plug108, security cameras), and consumption devices (e.g., smartphone 110,tablet 112, smart television 116 in which streaming stick 114 may beinserted, gaming consoles, smart watches), which may be located in aparticular physical location (e.g., a household of user 106, a place ofbusiness, a school, other organization, etc.). System 100 may compriseanalytics server 118 in communication with the networking equipment, andwhich may be located at a location remote from the particular physicallocation. The networking equipment, consumption devices and IOT devicesof system 100 may be equipped with antennas for transmitting andreceiving electromagnetic signals at frequencies within theelectromagnetic spectrum, e.g., radio frequencies, to communicate witheach other over a network in a localized area. The network maycorrespond to, e.g., a Wi-Fi network, such as, for example, 802.11n,802.11ac, 802.11ax, or Wi-Gig/802.11ad at a fronthaul of atelecommunications network. The devices of system 100 may communicatewirelessly over a wireless Local Area Network (WLAN) and with theInternet, and may be present within an effective coverage area of thelocalized network. The Internet may include a global system ofinterconnected computer networks and devices employing commoncommunication protocols, e.g., the transmission control protocol (TCP),user datagram protocol (UDP) and the internet protocol (IP) in theTCP/IP internet protocol suite.

Router 102 may be configured to forward data packets from the Internetconnection, received by way of a modem, to devices within the localizednetwork of system 100 and receive data packets from such devices. Insome embodiments, router 102 may include a built-in modem to provideaccess to the Internet for the household (e.g., received by way of cableor fiber connections included in backhaul portions of atelecommunications network), built-in switches or hubs to deliver datapackets to the appropriate devices within the Wi-Fi network, built-inaccess points to enable devices to wirelessly connect to the Wi-Finetwork, and/or system 100 may include one or more stand-alone modems,switches, routers and access points. Mesh access points 104 and 105 maycomprise additional routers or network equipment positioned at variouslocations around the household of user 106 and in communication withrouter 102 to extend a range of the network. For example, mesh accesspoints 104 and 105 may receive wireless signals from router 102 andprovide the signals throughout the localized area, e.g., to more remoteportions of a house of user 106 relative to router 102. In someembodiments, media assets may be provided to user 106 by way of wirelesssignals transmitted through the localized network, and wireless signalcharacteristics of the home network may be monitored (e.g., by router102 and/or by analytics server 118) to determine user presenceinformation and modify presentation of a media asset based on userpresence information.

FIG. 2 shows an illustrative map 200 which may be utilized indetermining user presence information, in accordance with someembodiments of this disclosure. In some embodiments, map 200 may begenerated at least in part by router 102. For example, router 102 maycomprise control circuitry and memory storing one or more executableinstructions, where the control circuitry may be configured to executethe one or more executable instructions to implement a wirelesssignal-sensing application. In some embodiments, the wirelesssignal-sensing application may be executed at least in part on a remoteserver, e.g., analytics server 118, and/or at one or more consumptiondevices 110, 112, 116, and/or other access points 104, 105, 107 withinthe coverage of the wireless network (e.g., a Wi-Fi home network). Thewireless signal-sensing application may monitor propagation patterns ofwireless signals over the localized network (e.g., within the householdof user 106) over time and determine wireless signal characteristicsbased on the monitored wireless signals. In some embodiments, thewireless signal-sensing application may use the detected wireless signalcharacteristics to monitor motion within the residence/building, andbuild a baseline of activity and streaming traffic within the localizedarea (e.g., household of user 106) in order to generate map 200. Map 200may be used to determine user presence information associated withparticular rooms of the household.

Map 200 may depict a plan view of a particular floor of a household of auser, in which a plurality of user equipment and network equipmentdevices are present and may be in communication over the localizednetwork (e.g., a Wi-Fi home network). Router 102 may route wirelesssignals throughout the household to television 116, access points 104,105, 107, cameras 117, 120, 122, 124, alarm 119, and smart doorbell 126.Map 200 may depict a propagation path 128 of wireless signals, e.g.,from router 102 to other access points and/or consumption devices, asdetected by the wireless signal-sensing application. Map 200 maycomprise a plurality of rooms, e.g., living room 202, first bedroom 204,second bedroom 206, kitchen 208, bathroom 210, and front patio 212,which may be mapped out and identified by the wireless signal-sensingapplication based on the wireless signal characteristics determined overtime. Based on the detected wireless signal characteristics, thewireless signal-sensing application may build a list of connecteddevices in the environment (e.g., based on determining an initial state,location and list of devices with respect to router 102 and the otheraccess points) and identify the consumption devices from the identifiedconnected devices. In some embodiments, cross-coordination between thevarious access points may enhance the detail of the generation of map200.

In some embodiments, in generating map 200, the wireless signal-sensingapplication may classify the devices into various categories. Forexample, wireless signal-sensing application may determine that devicesstreaming media at speeds exceeding a certain threshold (e.g., 5 Mb/s)may be deemed to be streaming HD video content to television 116,whereas devices determined to be streaming media at a different speed(e.g., 1-3 Mb/s) may be deemed to be streaming HD video content tosmartphone 110 or tablet 112 (or SD content to television 116). In someembodiments, the representations depicted in map 200, and associateduser presence information, may be stored in association with one or moredata structures within router 102, as discussed in more detail inconnection with FIG. 3 . Alternatively or additionally, user presenceinformation may be determined by one or more sensors (e.g., cameras 117,120, 122, 124 or radar sensors), which may be positioned within apredefined area from consumption devices.

FIG. 3 shows illustrative data structures of wireless signalcharacteristics, in accordance with some embodiments of this disclosure.In some embodiments, the wireless signal-sensing application maydetermine wireless signal characteristics based on one or more ofchannel state information (CSI), Received Signal Strength Indicator(RSSI) and received channel power indicator (RCPI). For example, router102 may be equipped with MIMO (Multiple Input Multiple Output)technologies, e.g., MIMO-OFDM, multi-user MIMO enabling multiple devicesto communicate with router 102 simultaneously, or single-user MIMO,which may provide CSI for each corresponding set of transmit and receiveantennas for particular carrier frequencies (e.g., as between antennasof router 102 and antennas of consumption devices). Wireless signals maypropagate from the transmitter to the receiver at certain carrierfrequencies along multiple paths, and a time series of CSI measurementscapturing how wireless signals travel through surrounding objects andhumans in time, frequency, and spatial domains may be determined andused to generate map 200. In some embodiments, the wirelesssignal-sensing application may generate map 200 and use map 200 todetermine what the wireless environment of the household looks like, andthe wireless signal-sensing application may identify subsequent changesin that landscape, e.g., based on the way the RF energy is absorbed orreflected, which may correlate with someone or something being presentor not present, and/or moving or being stationary. In some embodiments,a time series of wireless signal information (e.g., CSI, RSSI, RCPI) maybe collected by router 102 and access points 104, 105, 107, and thewireless signal information collected by access points 104, 105, 107 andthe other devices of the network may be transmitted to router 102 tobuild a mesh-sensing network.

As shown in FIG. 3 , the wireless signal information determined by thewireless signal-sensing application may be stored in association with anhistorical wireless signal characteristics data structure 300 (e.g., adatabase at analytics server 118, and/or stored at router 102 or otheraccess points or devices in the household or environment). The CSI datamay correspond to a three-dimensional matrix of values corresponding toa number of transmitting antennas (Tx), a number of receiving antennas(Rx) and a number of subcarriers, and may be indicative of amplitude andphase variation of a channel within a frequency used in the wirelesstransmissions. CSI is discussed in more detail in Y. Ma et al., “WiFiSensing with Channel State Information: A Survey,” ACM Comput. Sur.,Vol. 52, No. 3, Article 46. June 2019, the contents of which are herebyincorporated by reference herein in their entirety.

In some embodiments, historical wireless signal characteristics datastructure 300 may store CSI data associated with, or otherwise used togenerate, map 200 in, e.g., tuple format (STA/Wi-Fi Endpoint,Connected/Associated AP). For example, table 302 may store matrices ofCSI data associated with {TV 116, Router 102} at various points in timeas detected by the wireless signal-sensing application, and table 304may store matrices of CSI associated with {Tablet 112, AP 104} atvarious points in time as detected by the wireless signal-sensingapplication. The matrices may correspond to the format illustrated at306. In the example of 306, H may represent the CSI matrix, Rx-Tx mayrepresent a receiving and transmitting antenna pair, M and N mayrespectively represent a number of transmit and receive antennas in aMIMO-OFDM channel, K may represent a number of subcarriers in thefrequency domain, and T may represent a number of packets in the timedomain.

In some embodiments, tables similar to tables 302 and 304 may begenerated for each consumption device and each networking equipment ofthe household, and such tables, along with tables 302 and 304 may beused to generate table 308. Table 308 may store information for aplurality of rooms of the household depicted in map 200 and determinedbased on the CSI data, including a room identifier indicated in column310, indications in column 312 of objects (e.g., network equipment anduser equipment, such as, for example, consumption devices) in therespective rooms detected based on the CSI data, and respectivelocations, indicated in column 314, of the objects indicated in column312. In some embodiments, CSI data may not be collected for certainrooms, e.g., bathroom 210, if consumption devices are rarely used insuch room.

In some embodiments, historical wireless signal characteristics datastructure 300 may store information, derived based on the CSI datadetected by the wireless signal-sensing application, associated withprofiles for one or more users of the household, as indicated in table316. Table 316 comprises column 318, identifying one or more users ofthe household; column 320, indicating respective heights of such users;an indication in column 322 of a most common consumption position in aparticular room for a particular device (e.g., living room TV 116), anindication of a most common consumption location associated with aparticular device, as indicated in column 324; and a current location ofthe respective user indicated in column 326. In some embodiments, theprofiles of the one or more users may be added or appended to the storedtuple. In some embodiments, data structure 300 may be configured tostore indications of certain time points in the historical wirelesssignal characteristics at which the user is detected to have issuedcommands to media devices, which may be used to confirm the timing, inconnection with CSI matrix 306, of when a user is present (e.g., andwatching TV).

FIG. 4 shows an illustrative example of modifying presentation of amedia asset at a consumption device based on user presence information,in accordance with some embodiments of this disclosure. As shown in FIG.4 , consumption device 116 located in living room 202 may be generatingfor display media asset 402, for consumption by user 106 (e.g.,associated with user profile “User A” in table 316 of FIG. 3 ). In someembodiments, a media application, e.g., an over-the-top (OTT) mediaservice, running at least in part on consumption device 116, maygenerate for display media asset 402. Media asset 402 may be generatedfor display based on wireless signals transmitted by router 102 toconsumption device 116, and such wireless signals may be associated witha broadcast or stream of any suitable content (e.g., requested by theuser from a remote server, such as, for example, media content source1202 of FIG. 12 ). In some embodiments, when generating for presentationmedia asset 402, progress bar 404 may be provided, and/or an option 406to pause media asset 402 may be provided. In some embodiments, the mediaapplication may be permitted to subscribe to a notification serviceassociated with the user presence information determined by the wirelesssignal-sensing application, e.g., the media application may invoke anAPI to access the user presence information (e.g., via analytics server118).

The wireless signal-sensing application may be configured to determinewireless signal characteristics associated with the current consumptionsession of media asset 402. For example, the wireless signal-sensingapplication may determine current wireless signal characteristics, e.g.,CSI data indicative of the position of user 106 on the couch in livingroom 202 while media asset 402 is generated for presentation, based onthe properties of the propagation of wireless signals from router 102 toconsumption device 116. As shown in the lower portion of FIG. 4 , user106 may exit living room 202, e.g., to meet neighbor 408 who had rang adoorbell (e.g., smart doorbell 126). The wireless signal-sensingapplication may detect such movement of user 106 based on a change inthe current wireless signal characteristics associated with theconsumption session of media asset 402, e.g., the wireless signals maypropagate in a different manner due to the absence of user 106 fromliving room 202 as compared to the historical wireless signalcharacteristics associated with the scenario of the upper portion ofFIG. 4 where user 106 is present in living room 202 consuming mediaasset 402 and/or the wireless signal landscape on a path of user 106 tomeet neighbor 408 may reflect the movement of user 106.

Based on the determined wireless signal characteristics, the wirelesssensing application may determine user presence informationcorresponding to the absence of user 106 from living room 202. Thewireless signal-sensing application may cause the presentation of mediaasset 402 to be modified (e.g., paused or stopped) and may causenotification 412 to be generated for display, e.g., by notifying themedia application (e.g., directly or by way of intermediary analyticsserver 118) of such user presence information and enabling the mediaapplication to modify the presentation of media asset 402 and generatefor display notification 412, or the wireless signal-sensing applicationmay intervene during presentation of media asset 402 by the mediaapplication to modify the presentation of the media asset and generatefor display notification 412. Notification 412 may comprise a messageindicating that presentation of media asset 402 has been paused due tothe user presence information indicating the user has moved to alocation outside a predefined range from consumption device 116.

In some embodiments, prior to causing modification of the presentationof media asset 402 based on the user presence information, the wirelesssignal-sensing application may wait until a predefined time period haspassed exceeding a threshold period of time (e.g., 20 seconds). This mayavoid interrupting the presentation of media asset 402 if user 106intends to return to the room within a short period of time (e.g., 5seconds, such as to grab a water bottle in an adjacent room) that isbelow the predefined threshold. In some embodiments, the wirelesssignal-sensing application and/or media application may enable user 106to set a desired threshold period of time, and/or the threshold periodof time may be dynamically adjusted based on a current scene (e.g., thethreshold may be longer if a user profile of user 106 indicated user 106is unlikely to be interested in a current scene).

In some embodiments, the wireless signal-sensing application and/ormedia application may provide a global-level streaming parameter whichmay be set by user 106 to indicate whether (and how) a media assetshould be modified (e.g., paused or stopped) when user 106 is determinedto have exited the predefined range surrounding consumption device 116.For example, user 106 may prefer that presentation of media asset 402 bestopped rather than paused when he or she exits the room. In someembodiments, the progress point of media asset 402 at which presentationof media asset 402 may be modified (e.g., paused) may be an initialprogress point corresponding to a time at which user 106 is detected tohave exited a vicinity of consumption device 116, rather than theprogress point of media asset 402 being generated for display when thepredefined time period expires (e.g., media asset 402 may be rewound tothe initial point even if paused at the point at which the predefinedtime period expires, since user 106 likely missed each portion of mediaasset 402 after the initial point). In some embodiments, the vicinity ofthe consumption device may be considered to be a location close enoughfor a user to consume content (e.g., 10 feet), and may vary based on atype of content and/or a type of consumption device (e.g., a big screentelevision may be considered to have a larger predefined vicinity than asmartphone).

In some embodiments, option 410 may be generated for display, enablinguser 106 to select to resume presentation of media asset 402 uponreturning to living room 202. In some embodiments, the presentation ofmedia asset 402 may be modified automatically upon the return of user106 to living room 202, e.g., in response to determining user presenceinformation indicates user 106 has returned to living room 202. In someembodiments, a change in wireless signal characteristics as between thecurrent wireless signal characteristics and historical wireless signalcharacteristics may be determined based on whether an amount of changein CSI data exceeds a predefined threshold, e.g., to avoid modifyingpresentation due to minor changes in wireless signal characteristicsthat may not be associated with a change in user presence in living room202.

In some embodiments, the wireless signal-sensing application may controlthe modification of the presentation of media asset 402 based on theuser profile of the user determined to be consuming media asset 402 onconsumption device 116. For example, the wireless signal-sensingapplication may determine that user 106 is consuming media asset 402 inliving room 202. The wireless signal-sensing application maysubsequently cause the presentation of media asset 402 to be modified inresponse to determining the user presence information indicates user 106has exited a vicinity of consumption device 116. Thereafter, thewireless signal-sensing application may determine, based on the userpresence information, that another user (e.g., user 408) has entered thevicinity of consumption device 116. In this instance, the wirelesssignal-sensing application may decline to resume presentation of mediaasset 402, based on a determination that a user profile for user 408(e.g., guest) does not correspond to a user profile of user 106, who hadbeen consuming media asset 402 at consumption device 116.

In some embodiments, modifying the presentation of a media asset at aconsumption device based on user presence information comprisesinstructing a server to refrain from providing supplemental content tothe consumption device. For example, supplemental content (e.g., anadvertisement) may be scheduled to be provided to consumption device 116from a remote server (e.g., a supplemental content server) at aparticular time. If the wireless signal-sensing application determinesuser presence information indicating user 106 has exited the vicinity ofconsumption device 116 at the particular time, the wirelesssignal-sensing application may notify one or more servers accordingly(e.g., analytics server 118, which may notify the supplemental contentserver or the portion of the wireless signal-sensing application thatmay be running on the consumption device may communicate directly withthe supplemental content server). Such notification may instruct thesupplemental content server to refrain from providing an advertisementto consumption device 116 at the particular time, and the supplementalcontent server 1224 may instead provide the supplemental content inresponse to receiving an indication from the wireless signal-sensingapplication that user 106 has returned to a vicinity of consumptiondevice 116.

FIG. 5 shows an illustrative example of modifying presentation of amedia asset at a consumption device based on user presence information,in accordance with some embodiments of this disclosure. The upperportion of FIG. 5 may correspond to a similar scenario as depicted inthe upper portion of FIG. 4 , in that the media application running atleast in part on consumption device 116 may generate for presentationmedia asset 402 based on wireless signals received from router 102. Thewireless signal-sensing application may identify current wireless signalcharacteristics (e.g., CSI data) corresponding to the time pointassociated with the upper portion of FIG. 5 . As shown in the lowerportion of FIG. 5 , a user 502 (e.g., a child user, associated with theuser profile of “User B” indicated in category 318 of table 316) mayenter living room 202. In some embodiments, the wireless signal-sensingapplication may determine user 502 is a child based on one or moreattributes of the user indicated by the wireless signal characteristics(e.g., whether the height of user 502 is below a predefined threshold,such as, for example, four feet).

The presence of user 502 may be detected by comparing current wirelesssignal characteristics to historical wireless signal characteristics(e.g., from the time point associated with the scenario in the upperportion of FIG. 5 ). Based on the detecting the presence of user 502,the wireless sensing application may modify the presentation of mediaasset 402. For example, the wireless sensing application may cause themodification of the presentation of media asset 402 by notifying themedia application (e.g., via analytics server 118, when the mediaapplication is subscribed to notification published by the wirelesssensing application) that a user below a certain age (e.g., 17) hasentered living room 202. The wireless sensing application and/or themedia application may determine (e.g., based on metadata of media asset402) that media asset 402 is associated with a parental rating (e.g.,rated “R”) that is not appropriate for a user in the age group of user502, and may modify presentation of media asset 402 accordingly (e.g.,by pausing or stopping presentation of media asset 402; by lowering thevolume of media asset 402; by inserting supplemental content at thecurrent progress point, such as, for example, an advertisement that issuitable for a younger audience). The pause command may be transmittedby the media application running on consumption device 116 to a remoteserver (e.g., requested by the user from a remote server, such as, forexample, media content source 1202 of FIG. 12 ). In some embodiments,notification 512 may be provided to user 106 by the wireless sensingapplication and/or the media application, indicating that presentationof media asset 402 has been modified based on detecting the presence ofuser 502 in the room.

FIG. 6 shows an illustrative example of modifying presentation of amedia asset at a consumption device based on user presence information,in accordance with some embodiments of this disclosure. As shown in theupper portion of FIG. 6 , consumption device 616 may be generating forpresentation media asset 604 in living room 602 to user 106, based onwireless signals transmitted by router 601 to consumption device 616.The wireless sensing application may identify current wireless signalcharacteristics corresponding to the current viewing session of mediaasset 604 in living room 602, and determine user presence information ofuser 106 based on such wireless signal characteristics (e.g., based on acomparison of the determined current wireless signal characteristics tohistorical wireless signal characteristics associated with one or moreprior instances in which user 106 or another user was determined to bepresent in a vicinity of consumption device 616 or another consumptiondevice). For example, if a predefined degree of matching or predefinedlevel of overlap between the current wireless signal characteristics(e.g., CSI data) and particular historical wireless signalcharacteristics is present, the current wireless signal characteristicsmay be determined to match user presence information associated with theparticular historical wireless signal characteristics.

As shown in the lower portion of FIG. 6 , user 106 may decide to movefrom living room 602 to another area of the house, such as bedroom 606.The wireless sensing application may identify this movement based on achange in wireless signal characteristics (e.g., how wireless signalspropagate from router 601 to consumption device 616 and/or consumptiondevice 617, differences in how RF energy is absorbed or reflected byhumans or objects, etc.) as that user 106 is on the move or has moved tobedroom 606. In some embodiments, the wireless signal-sensingapplication may determine user presence information for living room 602now indicates the room has no users, whereas user presence informationfor bedroom 606 now indicates user 106 is present in bedroom 606. Inresponse to this determination, the wireless signal-sensing applicationmay modify presentation of media asset 604 (or may communicate with amedia application, which may be generating for display media asset 604in living room 602, to cause the media application to modifypresentation of media asset 604). For example, presentation of mediaasset 604 in living room 602 may be paused or stopped, and in responseto detecting user presence in a vicinity of consumption device 617,presentation of media asset 604 may be transferred or otherwisecommenced at consumption device 617 in bedroom 606 may begin, e.g., fromthe point at which media asset 604 was paused or stopped or the point atwhich user 106 is determined to have moved to a location outside apredefined vicinity from consumption device 616.

In some embodiments, the wireless signal-sensing application maycommunicate with lamp 608 (e.g., directly to an application associatedwith lamp 608, or via analytics server 118), which may be connected to ahome Wi-Fi network, to cause lamp 608 to be turned on upon detecting thepresence of user 106 in bedroom 606. In some embodiments, the wirelesssignal-sensing application may be configured to turn off consumptiondevice 616 (e.g., by communicating with smart Wi-Fi plug 108) when user106 is determined to have moved into bedroom 606. In some embodiments,consumption device 617 may have already been turned on when user 106entered bedroom 606, in which case the current program may be caused toswitch to media asset 604, the wireless signal-sensing application maybe configured to cause consumption device 617 to turn on and generatefor display media asset 604 (e.g., by communicating with smart Wi-Fiplug 108). In some embodiments, sensor data from other sources (e.g., amicrophone, such as for example, associated with a digital assistant ina vicinity of consumption device 616 and/or in a vicinity of consumptiondevice 617, and/or a camera in a vicinity of consumption device 616and/or in a vicinity of consumption device 617) may be leveraged todetermine that user 106 has moved into another room of a localized area(e.g., a household of user 106, a school, a place of business, otherorganization, etc.). Such sensor data may be utilized in combinationwith the wireless sensor characteristics to determine the user presenceinformation and determine whether to modify the presentation of mediaasset 604.

In some embodiments, the wireless signal-sensing application may refrainfrom modifying presentation of content, based on determining that theconsumption device presenting content to user 106 is a mobile devicethat is being carried into another room by user 106. For example, theuser presence information may indicate that the user is on the move, butat the same time the wireless signal characteristics may indicate thatthe mobile consumption device is being carried by user 106 (e.g., iswithin a threshold distance from user 106), and thus there may be noneed to modify presentation of the media asset.

In some embodiments, the wireless signal-sensing application may collectconsumption information with respect to certain content (e.g.,supplemental content, such as, for example, advertisements). Forexample, the wireless signal-sensing application may determine, based onthe user presence information, that a particular user (e.g., user 106associated with the user profile indicated in table 316 of thehistorical wireless signal characteristics database 300 of FIG. 3 )frequently exits a vicinity of consumption devices when a certain typeof supplemental content is provided to user 106. The wirelesssignal-sensing application may provide this information to analyticsserver 118, which may generate statistics or metrics related toeffectiveness of the supplemental content for certain users of a certaindemographic and region. On the other hand, the wireless signal-sensingapplication may determine that certain types of supplemental content aremore effective for certain demographics or regions, e.g., if users ofthe particular demographic or region tend to remain in the vicinity ofthe consumption device generating for display the supplemental content,as determined by the user presence information. Based on thisinformation, analytics server 118 may determine certain supplementalcontent that is likely to interest users of a certain demographic orregion and provide this information to certain subscribers (e.g., amedia content provider that provides supplemental content to users).

The user presence information may be utilized for various purposes. Forexample, based on the presence information, an automatic log-in processmay be initiated. Certain media applications comprise multiple usersassociated with a global user profile (e.g., multiple Netflix profileswithin a single Netflix subscription may be displayed to each user ofthe subscription, and the user may navigate to the desired profile). Insome embodiments, profile detection and authorization may be performedbased on a personalized Wi-Fi signal pattern detected by the wirelesssignal-sensing application (e.g., wireless signal characteristicsindicative of a particular user profile stored in association with datastructure 300). For example, historical wireless signal characteristicsmay indicate that a particular user is of a certain height or buildand/or may walk with a certain gait or other identifyingcharacteristics, and based on such detected characteristics, cause themedia application to automatically login to the identified user'sprofile, without requiring user input (e.g., by notifying analyticsserver 118 of the particular user, which in turn may notify the mediaapplication, or by directly notifying the media application). As anotherexample, suggestions may be made to the user based on the detectedpropagation patterns of wireless signal within the localized area. Forexample, the wireless signal application and/or analytics server 118 maymake available a suggestion API, where subscription to such API mayenable notifications to be sent to a user suggesting positions at whichto stream content to maximize signal level and enhance the streamingexperience. In some embodiments, the wireless signal application maysuggest a location to place a repeater or access point to provide bettercoverage for streaming in the particular area.

FIG. 7 shows an illustrative example of correlating wireless signalcharacteristics with user presence information, in accordance with someembodiments of this disclosure. As shown in the upper portion of FIG. 7, consumption device 116 may be generating for display media asset 703,which may be associated with a particular broadcast channel 704 (e.g.,Channel 2) or media content provider. At 706, the wirelesssignal-sensing application and/or the media application may detect auser interaction with media asset 703, e.g., a request to pause mediaasset 703, a request to change the channel from channel 704 to channel708, a request to view a different media asset on the same or differentmedia content provider, request of the user by the wirelesssignal-sensing application to calibrate his or her position where he orshe normally watches, detecting the user is searching on his or hersmartphone for content related to content being displayed at consumptiondevice 116, etc. At 710, the wireless sensing application may determine,based on detected user interaction, that wireless signal characteristicsat this time correspond to the user being in a vicinity of theconsumption device, e.g., since the user is likely present in livingroom 202 in order to initiate a request associated with, or to performactions related to, media asset 202. This may be useful in buildingdatabase 300 of historical wireless signal characteristics, since thisinstance may correspond to a data point at which wireless signalcharacteristics are correlated with user presence in living room 202,and may be used as a baseline for comparison with later instances wherethe wireless signal-sensing application is determining user presenceinformation. In some embodiments, interactions with certain devices(e.g., a smart lock or door sensor in another room, answering the doorwhen a smart doorbell is rang) may be detected and taken as anindication that user 106 is in another room and outside the predefinedvicinity of consumption device 116. In some embodiments, the datastructure of FIG. 3 may be modified to include the data collected inconnection with FIG. 7 . For example, the data structure of FIG. 3 mayinclude an indicator of user presence in connection with a particularuser at a particular time and in a particular location.

FIG. 8 shows an illustrative example of a machine learning model 800used to determine user presence information, in accordance with someembodiments of this disclosure. Machine learning model 800 maycorrespond to, for example, a neural network, a native Bayes model,logistic regression model, etc., and may be used to perform continuoushuman presence detection in a household. Machine learning model 800 maybe used to determine whether a user is present based on input wirelesssignal characteristics (e.g., stored at data structure 300 of FIG. 3 ,which may comprise CSI measurements, RSSI, RCPI, packet sniffinganalysis, etc.) determined by the wireless signal-sensing application.In some embodiments, the collected data may be processed (e.g., byapplying processes such as denoising, down sampling, artifact/outlierremoval, etc.) and extraction of features may be performed (e.g., usinginferential statistics, frequency domain analysis) for input (e.g., asfeature vectors) to machine learning model 800. Any suitable number andcombination of techniques may be employed in determining the userpresence information, e.g., density-based spatial clustering,fingerprinting, regression, filter models and threshold detection. Insome embodiments, machine learning model 800 may be stored and executedat one or more of router 102, access points 104 and 105, consumptiondevices and/or analytics server 118 of FIG. 1 .

In some embodiments, machine learning model 800 may be trained usingtraining data set 804. In some embodiments, the states captured at FIG.7 may be stored in the tables of FIG. 3 , e.g., with special markersindicating when user presence is detected at a particular time in aparticular location. For example, training data set 804 may comprise theexample as described in connection with FIG. 7 , which may be used as adata point for machine learning model 800. For example, wireless signalcharacteristics (e.g., stored at data structure 300 of FIG. 3 )corresponding to the scenario of FIG. 7 may be labeled as an example inwhich the wireless signal characteristics are indicative of userpresence of user 106 in living room 202, based on the inference thatreceiving user interactions with media asset 703, 705 indicates thatuser 106 is in a vicinity of consumption device 116. On the other hand,training examples may be labeled as indicating the user is not presentin the vicinity of consumption device 116 during times where a mediaasset is not being presented at consumption device 116 or user 106 isdetermined as not being in the vicinity of consumption device 116 (e.g.,if no user interaction with consumption device 116 has been detected fora predefined period of time; consumption device 116 is determined to beoff, such as based on communications between router 102 and Wi-Fi plug108; during times where user is determined to be not at home orsleeping, such as based on communications between router 102 and cameras117, 120 and/or a smart lock or alarm 119 or motion sensor; determininga consumption device is being utilized by user 106 in another room,etc.).

Trained machine learning model 800 may accept as input current wirelesssignal characteristics 802 and output 808 a determination of userpresence information, e.g., a probability that user 106 is within thevicinity of consumption device 116. In some embodiments, trained machinelearning model 800 may learn user-specific behavior patterns (e.g.,movement patterns and/or a gait of a certain user, most common rooms inwhich a user consumes content, most common location in a room in whichcontent is consumed) and certain attributes of users (e.g., based onuser profiles stored in table 316) over time, which may be used indetermining whether any user is present in a room and/or is moving in orout of the room. For example, machine learning model 800 may learn theprofile of each user (e.g., body width, height, age, etc.) and/ordifferentiate users from other objects (human vs. dog, based on heightand width comparisons). In some embodiments, the user profile may bestored without any personally identifiable information. In someembodiments, the wireless signal-sensing application may determine thata request has not been received from a certain object or entity (e.g., adog), and thus such entity may be ignored with respect to modifyingpresentation of a media asset. In some embodiments, the output of themachine learning model may be added to the tuple of FIG. 3 .

In some embodiments, the one or more models may be dynamically updatedas users and objects move in an out of certain areas (e.g., Wi-Fi APsignal capture areas) to build patterns of learning which objects aregenerally static within the coverage area and which objects are mobileobjects, as well as their particular (e.g., historical) location andmovement patterns. For instance, the model may build an awareness of achair within a room, and an historical pattern of a human generallysitting on that chair or getting up, which may create similar signalpropagation patterns over time that the model can learn and leverage forfaster decisions as to whether a user is leaving the area of thestreaming device or not. Such dynamic models may update and adapt map200 providing a real-time view of the environment and observed activity,and such map data may be fed into machine learning model 800 to isolateand determine if a human is around a consumption device. In someembodiments, if the determination is made with a relatively lowconfidence score, router 102 or an access point may send specialtemporary signals to resolve the conflict. In some embodiments, movementof objects may be taken into account, e.g., the wireless sensingapplication may determine that a chair has been moved based on wirelesssignals being absorbed and/or reflected differently than when the chairwas at the prior location.

FIG. 9 shows a block diagram of an illustrative system 900 fortransmitting wireless signal characteristics to a service provider basedon an authorization level of the service provider, in accordance withsome embodiments of this disclosure. A plurality of service providersmay provide various services within the localized network (e.g., Wi-Finetwork) associated with a particular physical location (e.g., ahousehold of user 106, a place of business, a school, otherorganization, etc.). For example, a media application may providerecommendations to a user consumption device within the network based onthe user's consumption habits; an autonomous cleaning device may collectdata as it cleans a home of a user, e.g., to learn locations of walls orfurniture in the home of the user; a home security system may detectburglaries or break-ins; to improve voice recognition systems, etc. Thewireless signal-sensing application (e.g., running at least in part onrouter 102 and/or analytics server 118) may implement anapplications-hosting database or server, plug-ins, a softwaredevelopment kit (SDK), an API, or other software tools configured toprovide service providers with the ability to subscribe to wirelesssignal characteristics and/or user presence information determined bythe wireless signal-sensing application.

At 902, the wireless signal-sensing application may receive an APIrequest from a first service provider, requesting information related towireless signal characteristics and/or user presence information. Inresponse to receiving the API request, the wireless signal-sensingapplication may determine, at 904, an authorization level of the serviceprovider. In some embodiments, the authorization level may be determinedby the wireless signal-sensing application based on a type of serviceprovided by the service provider and/or previously received user inputsindicating granularity levels of information the particular serviceprovider should be permitted to receive. At 906, the wirelesssignal-sensing application may transmit via the API a suitable portionof map 200 and suitable wireless signal characteristics based onidentified authorization level. In the example of FIG. 9 , the wirelesssignal-sensing application may determine that the authorization levelfor the particular service provider having sent the API request onlypermits the service provider to receive information related to livingroom 202, and thus may provide the portion of map 200 corresponding toliving room 202 to the particular service provider as well as associatedwireless signal characteristics information. In some embodiments, thewireless signal-sensing application may cause such information to betransmitted to the service provider (e.g., associated with a device inthe home network of the user and/or an associated server) by way ofanalytics server 118.

FIG. 10 shows an illustrative system for transmitting wireless signalcharacteristics to a service provider based on an authorization level ofthe service provider, in accordance with some embodiments of thisdisclosure. The wireless sensing application may provide, e.g., onconsumption device 110, interface 1001 to enable user 106 to specify anamount and/or which types of data may be shared with a particularservice provider (e.g., an autonomous home cleaner service provider, asspecified as portion 1002 at interface 1001). In some embodiments,interface 1001 may be provided by the particular service provider, whereuser selections at interface 1001 may be communicated to the wirelesssensing application (e.g., running at least in part at analytics server118).

Interface 1001 may comprise options 1004 and 1006, corresponding tooptions to provide different levels of data to the particular serviceprovider. For example, option 1004 may be associated with notifying theparticular service provider of a number of users detected in living room202 based on wireless signal characteristics of wireless signalstransmitted between router 102 and consumption device 116. Option 1006may be associated with notifying the particular service provider when aliving room 202 is empty. In some embodiments, option 1006 may be adefault or recommended option, since it may be desirable to share lessinformation with the service provider while still providing a certainamount of information to improve the ability of the service provider toprovide its corresponding service (e.g., autonomous cleaning). Forexample, autonomous cleaning device 1018 may be configured to be aself-operating vacuum cleaner that navigates a room to clean up dust anddebris, and autonomous cleaning device 1018 may wait until a room isempty to perform cleaning so as not to disrupt a viewing session ofmedia asset 402 in living room 202. Thus, it may not be necessary forautonomous cleaning device 1018 to receive information regarding howmany users are in a particular room, but rather whether the room isempty or not may be sufficient. In some embodiments, a service providermay be permitted to access certain data in connection with a particularuser, but may not be permitted to access such data in connection withanother user, and interface 1001 may receive selections in associationwith such settings.

In the example of FIG. 10 , option 1004 may be de-selected, by virtue ofuser selection of selection 1016 corresponding to indication 1010 (“No”)rather than indication 1008 (“Yes”) in relation to option 1004. On theother hand, option 1006 may be selected, by virtue of user selection ofselection 1019 corresponding to indication 1012 (“Yes”) rather thanindication 1014 (“No”) in relation to option 1006. Thus, in the exampleof the upper portion of FIG. 10 , when the wireless signal-sensingapplication detects the entry of another user 502 into living room 202in addition to user 106, such information may not be provided to theautonomous cleaning service, as indicated at 1016. On the other hand, inthe example of the upper portion of FIG. 10 , when the wirelesssignal-sensing application detects the exit of user 106 (e.g., due touser 106 answering the door and speaking with neighbor 408), and theabsence of any users in living room 202, such information may beprovided to the autonomous cleaning service, as indicated at 1020, andbased on user selection 1019.

As another example, it may be unnecessary to provide certain serviceproviders (e.g., a media content provider) with wireless signalcharacteristics and user presence information from a particular room.For example, bathroom 210 of map 200 may not be associated with anyconsumption devices, and thus the media application may have no use fordata from this particular room. Thus, computing resources may beconserved by declining to include bathroom 210 in map 200 and refrainingfrom generating wireless signal characteristics for bathroom 210 andrefraining from providing such data to the media content provider. Onthe other hand, it may be desirable to provide certain service providers(e.g., a home security system) with wireless signal characteristics andmap data for each room in a household, to monitor the household foractivity indicative of an intruder.

FIGS. 11-12 describe illustrative devices, systems, servers, and relatedhardware for determining user presence information, in accordance withsome embodiments of the present disclosure. FIG. 11 shows generalizedembodiments of illustrative consumption devices 1100 and 1101, which maycorrespond to, e.g., consumption devices 110, 112, 114, 116, 616. Forexample, consumption device 1100 may be a smartphone device. In anotherexample, consumption device 1101 may be a user television equipmentsystem or device. User television equipment device 1101 may includeset-top box 1116. Set-top box 1116 may be communicatively connected tomicrophone 1118, speaker 1114, and display 1112. In some embodiments,microphone 1118 may receive voice commands for the media application. Insome embodiments, display 1112 may be a television display or a computerdisplay. In some embodiments, set-top box 1116 may be communicativelyconnected to user input interface 1110. In some embodiments, user inputinterface 1110 may be a remote control device. Set-top box 1116 mayinclude one or more circuit boards. In some embodiments, the circuitboards may include control circuitry, control circuitry, and storage(e.g., RAM, ROM, hard disk, removable disk, etc.). In some embodiments,the circuit boards may include an input/output path. More specificimplementations of user equipment devices are discussed below inconnection with FIG. 12 . Each one of user equipment device 1100 anduser equipment device 1101 may receive content and data via input/output(I/O) path 1102. I/O path 1102 may provide content (e.g., broadcastprogramming, on-demand programming, Internet content, content availableover a local area network (LAN) or wide area network (WAN), and/or othercontent) and data to control circuitry 1104, which includes processingcircuitry 1106 and storage 1108. Control circuitry 1104 may be used tosend and receive commands, requests, and other suitable data using I/Opath 1102, which may comprise I/O circuitry. I/O path 1102 may connectcontrol circuitry 1104 (and specifically processing circuitry 1106) toone or more communications paths (described below). I/O functions may beprovided by one or more of these communications paths, but are shown asa single path in FIG. 11 to avoid overcomplicating the drawing.

Control circuitry 1104 may be based on any suitable control circuitrysuch as processing circuitry 1106. As referred to herein, controlcircuitry should be understood to mean circuitry based on one or moremicroprocessors, microcontrollers, digital signal processors,programmable logic devices, field-programmable gate arrays (FPGAs),application-specific integrated circuits (ASICs), etc., and may includea multi-core processor (e.g., dual-core, quad-core, hexa-core, or anysuitable number of cores) or supercomputer. In some embodiments, controlcircuitry may be distributed across multiple separate processors orprocessing units, for example, multiple of the same type of processingunits (e.g., two Intel Core i7 processors) or multiple differentprocessors (e.g., an Intel Core i5 processor and an Intel Core i7processor). In some embodiments, control circuitry 1104 executesinstructions for the media application stored in memory (e.g., storage1108). Specifically, control circuitry 1104 may be instructed by themedia application to perform the functions discussed above and below. Insome implementations, any action performed by control circuitry 1104 maybe based on instructions received from the media application.

In client/server-based embodiments, control circuitry 1104 may includecommunications circuitry suitable for communicating with a mediaapplication server or other networks or servers. The instructions forcarrying out the above mentioned functionality may be stored on a server(which is described in more detail in connection with FIG. 12 ).Communications circuitry may include a cable modem, an integratedservices digital network (ISDN) modem, a digital subscriber line (DSL)modem, a telephone modem, Ethernet card, or a wireless modem forcommunications with other equipment, or any other suitablecommunications circuitry. Such communications may involve the Internetor any other suitable communication networks or paths (which isdescribed in more detail in connection with FIG. 12 ). In addition,communications circuitry may include circuitry that enables peer-to-peercommunication of user equipment devices, or communication of userequipment devices in locations remote from each other (described in moredetail below).

Memory may be an electronic storage device provided as storage 1108 thatis part of control circuitry 1104. As referred to herein, the phrase“electronic storage device” or “storage device” should be understood tomean any device for storing electronic data, computer software, orfirmware, such as random-access memory, read-only memory, hard drives,optical drives, digital video disc (DVD) recorders, compact disc (CD)recorders, BLU-RAY disc (BD) recorders, BLU-RAY 3D disc recorders,digital video recorders (DVR, sometimes called a personal videorecorder, or PVR), solid state devices, quantum storage devices, gamingconsoles, gaming media, or any other suitable fixed or removable storagedevices, and/or any combination of the same. Storage 1108 may be used tostore various types of content described herein as well as wirelesssignal-sensing application and/or media application data describedabove. Nonvolatile memory may also be used (e.g., to launch a boot-uproutine and other instructions). Cloud-based storage, described inrelation to FIG. 11 , may be used to supplement storage 1108 or insteadof storage 1108.

Control circuitry 1104 may include video generating circuitry and tuningcircuitry, such as one or more analog tuners, one or more MPEG-2decoders or other digital decoding circuitry, high-definition tuners, orany other suitable tuning or video circuits or combinations of suchcircuits. Encoding circuitry (e.g., for converting over-the-air, analog,or digital signals to MPEG signals for storage) may also be provided.Control circuitry 1104 may also include scaler circuitry forupconverting and downconverting content into the preferred output formatof user equipment 1100. Control circuitry 1104 may also includedigital-to-analog converter circuitry and analog-to-digital convertercircuitry for converting between digital and analog signals. The tuningand encoding circuitry may be used by user equipment device 1100, 1101to receive and to display, to play, or to record content. The tuning andencoding circuitry may also be used to receive guidance data. Thecircuitry described herein, including for example, the tuning, videogenerating, encoding, decoding, encrypting, decrypting, scaler, andanalog/digital circuitry, may be implemented using software running onone or more general purpose or specialized processors. Multiple tunersmay be provided to handle simultaneous tuning functions (e.g., watch andrecord functions, picture-in-picture (PIP) functions, multiple-tunerrecording, etc.). If storage 1108 is provided as a separate device fromuser equipment device 1100, the tuning and encoding circuitry (includingmultiple tuners) may be associated with storage 1108.

Control circuitry 1104 may receive instruction from a user by way ofuser input interface 1110. User input interface 1110 may be any suitableuser interface, such as a remote control, mouse, trackball, keypad,keyboard, touch screen, touchpad, stylus input, joystick, voicerecognition interface, or other user input interfaces. Display 1112 maybe provided as a stand-alone device or integrated with other elements ofeach one of user equipment device 1100 and user equipment device 1101.For example, display 1112 may be a touchscreen or touch-sensitivedisplay. In such circumstances, user input interface 1110 may beintegrated with or combined with display 1112. Display 1112 may be oneor more of a monitor, a television, a display for a mobile device, orany other type of display. A video card or graphics card may generatethe output to display 1112. The video card may be any control circuitrydescribed above in relation to control circuitry 1104. The video cardmay be integrated with control circuitry 1104. Speakers 1114 may beprovided as integrated with other elements of each one of user equipmentdevice 1100 and user equipment system 1101 or may be stand-alone units.The audio component of videos and other content displayed on display1112 may be played through the speakers 1114. In some embodiments, theaudio may be distributed to a receiver (not shown), which processes andoutputs the audio via speakers 1114.

The wireless signal-sensing application and/or media application may beimplemented using any suitable architecture. For example, it may be astand-alone application wholly-implemented on each one of user equipmentdevice 1100 and user equipment device 1101. In such an approach,instructions of the application are stored locally (e.g., in storage1108), and data for use by the application is downloaded on a periodicbasis (e.g., from an out-of-band feed, from an Internet resource, orusing another suitable approach). Control circuitry 1104 may retrieveinstructions of the application from storage 1108 and process theinstructions to provide supplemental content as discussed. Based on theprocessed instructions, control circuitry 1104 may determine what actionto perform when input is received from user input interface 1110. Forexample, movement of a cursor on a display up/down may be indicated bythe processed instructions when user input interface 1110 indicates thatan up/down button was selected.

In some embodiments, the media application is a client/server-basedapplication. Data for use by a thick or thin client implemented on eachone of user equipment device 1100 and user equipment device 1101 isretrieved on-demand by issuing requests to a server remote to each oneof user equipment device 1100 and user equipment device 1101. In oneexample of a client/server-based guidance application, control circuitry1104 runs a web browser that interprets web pages provided by a remoteserver. For example, the remote server may store the instructions forthe application in a storage device. The remote server may process thestored instructions using circuitry (e.g., control circuitry 1104) toperform the operations discussed in connection with FIGS. 1-10 .

In some embodiments, the wireless signal-sensing application may bedownloaded and interpreted or otherwise run by an interpreter or virtualmachine (run by control circuitry 1104). In some embodiments, thewireless signal-sensing application may be encoded in the ETV BinaryInterchange Format (EBIF), received by control circuitry 1104 as part ofa suitable feed, and interpreted by a user agent running on controlcircuitry 1104. For example, the wireless signal-sensing application maybe an EBIF application. In some embodiments, the wireless signal-sensingapplication may be defined by a series of JAVA-based files that arereceived and run by a local virtual machine or other suitable middlewareexecuted by control circuitry 1104. In some of such embodiments (e.g.,those employing MPEG-2 or other digital media encoding schemes), thewireless signal-sensing application may be, for example, encoded andtransmitted in an MPEG-2 object carousel with the MPEG audio and videopackets of a program.

FIG. 12 is a diagram of an illustrative system 1200 for determining userpresence information, in accordance with some embodiments of thisdisclosure. User equipment devices 1208, 1209, 1210 (e.g., which maycorrespond to one or more of consumption devices 110, 112, 114, 116,118, 616, 500, 501) may be coupled to communication network 1206.Communication network 1206 may be one or more networks including theInternet, a mobile phone network, mobile voice or data network (e.g., a5G, 4G, or LTE network), cable network, public switched telephonenetwork, or other types of communication network or combinations ofcommunication networks. Paths (e.g., depicted as arrows connecting therespective devices to the communication network 1206) may separately ortogether include one or more communications paths, such as a satellitepath, a fiber-optic path, a cable path, a path that supports Internetcommunications (e.g., IPTV), free-space connections (e.g., for broadcastor other wireless signals), or any other suitable wired or wirelesscommunications path or combination of such paths. Communications withthe client devices may be provided by one or more of thesecommunications paths but are shown as a single path in FIG. 12 to avoidovercomplicating the drawing.

Although communications paths are not drawn between user equipmentdevices, these devices may communicate directly with each other viacommunications paths as well as other short-range, point-to-pointcommunications paths, such as USB cables, IEEE 1394 cables, wirelesspaths (e.g., Bluetooth, infrared, IEEE 702-11x, etc.), or othershort-range communication via wired or wireless paths. The userequipment devices may also communicate with each other directly throughan indirect path via communication network 1206.

System 1200 may comprise media content source 1202; server 1204; one ormore IOT devices 1216, 1218, 1220, 1222; and networking equipment 1224.Server 1204 may correspond to analytics server 118, and may comprise orbe associated with database 1205. Communications with media contentsource 1202 and server 1204 may be exchanged over one or morecommunications paths but are shown as a single path in FIG. 12 to avoidovercomplicating the drawing. In addition, there may be more than one ofeach of media content source 1202 and server 1204, but only one of eachis shown in FIG. 12 to avoid overcomplicating the drawing. If desired,media content source 1202 and server 1204 may be integrated as onesource device. IOT device 1216, 1218, 1220, 1222 (which may correspondto IOT devices 108, 118, 119, 122, 124, 126) may include any of aplurality of devices in a user's home or other location (e.g., a lightcontroller, washing machine, security camera, a Wi-Fi plug, a smartdoorbell, a smart lamp, an autonomous cleaning device, smart appliance,etc.). Networking equipment 1224 may correspond to, e.g., one or more ofrouter 102, access points 104, 105, 107, configured to enable deviceswithin a particular location (e.g., a household of a user, a school, aplace of business or other organization, etc.) to access communicationnetwork 1206 (e.g., by way of a WLAN). Networking equipment 1224 maycomprise control circuitry 1226, I/O path 1228, and memory 1230, and anyother suitable components. In some embodiments, the wirelesssignal-sensing application may be executed at one or more of controlcircuitry 1226 of networking equipment 1224 and control circuitry 1211of server 1204 (and/or control circuitry of user equipment devices 1208,1209, 1210 and/or control circuitry of devices 1216, 1218, 1220, 122).

In some embodiments, server 1204 may be a virtual software elementrunning on networking equipment 1224 or at a backend server associatedwith a server of a Cable or IPTV company. In some embodiments, the mediaapplication may be a virtual software element running on a consumptiondevice and/or a SVOD/AVOD/FVOD backend server. In some embodiments,system 1200 may comprise an supplemental content server (and/or mediacontent source 1202 may comprise an supplemental content server), andsuch supplemental content server may be deployed directly with the mediaapplication separately at a SVOD/AVOD/FVOD backend server or may bebespoke as part of a Real Time Bidding platform. Based on notificationsreceived from the server 1204, the media application may collectstatistics about the particular streaming session and the user profileassociated with the session, e.g., regarding how many times thepresentation of the media asset associated with the session was modified(e.g., paused/stopped), such as, for example, due to the wirelesssignal-sensing application determining the user exited the vicinity ofthe consumption device. In addition, statistics regarding a number ofusers present during a particular session, a total duration of an entirestreaming session (e.g., per episode, per movie, per program, etc.)including modifications to the presentation of the media asset due todetecting the absence of the user in a vicinity of the consumptiondevice. In some embodiments, such collected data may be granular, e.g.,based on the day of the week, time within the day, month (e.g., summervs. winter), and the stats may be sent to the supplemental contentserver to optimize future serving of advertisements for the particularuser and/or location (e.g., household).

In some embodiments, server 1204 may include control circuitry 1211 anda storage 1214 (e.g., RAM, ROM, Hard Disk, Removable Disk, etc.).Storage 1214 may store one or more databases. Server 1204 may alsoinclude an input/output path 1212. I/O path 1212 may provide deviceinformation, or other data, over a local area network (LAN) or wide areanetwork (WAN), and/or other content and data to control circuitry 1211,which includes control circuitry, and storage 1214. Control circuitry1211 may be used to send and receive commands, requests, and othersuitable data using I/O path 1212, which may comprise I/O circuitry. I/Opath 1212 may connect control circuitry 1204 (and specifically controlcircuitry) to one or more communications paths.

Control circuitry 1211 may be based on any suitable control circuitrysuch as one or more microprocessors, microcontrollers, digital signalprocessors, programmable logic devices, field-programmable gate arrays(FPGAs), application-specific integrated circuits (ASICs), etc., and mayinclude a multi-core processor (e.g., dual-core, quad-core, hexa-core,or any suitable number of cores) or supercomputer. In some embodiments,control circuitry 1211 may be distributed across multiple separateprocessors or processing units, for example, multiple of the same typeof processing units (e.g., two Intel Core i7 processors) or multipledifferent processors (e.g., an Intel Core i5 processor and an Intel Corei7 processor). In some embodiments, control circuitry 1211 executesinstructions for an emulation system application stored in memory (e.g.,the storage 1214). Memory may be an electronic storage device providedas storage 1214 that is part of control circuitry 1211.

In some embodiments, server 1204 may retrieve guidance data from mediacontent source 1202, process the data as will be described in detailbelow, and forward the data to user equipment devices 1208, 1209, 1210.Media content source 1202 may include one or more types of contentdistribution equipment including a television distribution facility,cable system headend, satellite distribution facility, programmingsources (e.g., television broadcasters, such as NBC, ABC, HBO, etc.),intermediate distribution facilities and/or servers, Internet providers,on-demand media servers, and other content providers. NBC is a trademarkowned by the National Broadcasting Company, Inc., ABC is a trademarkowned by the American Broadcasting Company, Inc., and HBO is a trademarkowned by the Home Box Office, Inc. Media content source 1202 may be theoriginator of content (e.g., a television broadcaster, a Webcastprovider, etc.) or may not be the originator of content (e.g., anon-demand content provider, an Internet provider of content of broadcastprograms for downloading, etc.). Media content source 1202 may includecable sources, satellite providers, on-demand providers, Internetproviders, over-the-top content providers, or other providers ofcontent. Media content source 1202 may also include a remote mediaserver used to store different types of content (including video contentselected by a user), in a location remote from any of the clientdevices. Media content source 1202 may also provide supplemental contentrelevant to the metadata of a particular scene of a media asset asdescribed above.

Client devices may operate in a cloud computing environment to accesscloud services. In a cloud computing environment, various types ofcomputing services for content sharing, storage or distribution (e.g.,video sharing sites or social networking sites) are provided by acollection of network-accessible computing and storage resources,referred to as “the cloud.” For example, the cloud can include acollection of server computing devices (such as, e.g., server 1204),which may be located centrally or at distributed locations, that providecloud-based services to various types of users and devices connected viaa network such as the Internet via communication network 1206. In suchembodiments, user equipment devices may operate in a peer-to-peer mannerwithout communicating with a central server.

FIG. 13 is a flowchart of a detailed illustrative process fordetermining user presence information, in accordance with someembodiments of this disclosure. In various embodiments, the individualsteps of process 1300 may be implemented by one or more components ofthe devices and systems of FIGS. 1-12 . Although the present disclosuremay describe certain steps of process 1300 (and of other processesdescribed herein) as being implemented by certain components of thedevices and systems of FIGS. 1-12 , this is for purposes of illustrationonly, and it should be understood that other components of the devicesand systems of FIGS. 1-12 may implement those steps instead.

At 1302, control circuitry of networking equipment (e.g., controlcircuitry 1226 of networking equipment 1224, which may correspond torouter 102 of FIG. 1 ) may implement the wireless signal-sensingapplication and may receive wireless signals from access points (e.g.,access point 104, access point 105) within a localized network (e.g.,the Wi-Fi home network of FIG. 1 ). The access points may be incommunication with devices within the localized network (e.g.,consumption devices 110, 112, 116 of FIG. 1 and IOT device 108 of FIG. 1), and the wireless signals may be associated with transmitting antennas(Tx) and receiving antennas (Rx) pairs of the devices within thenetwork. Based on the received wireless signals, control circuitry 1226of networking equipment 1224 may determine CSI data.

At 1304 and 1306, control circuitry 1226 of networking equipment 1224may receive wireless signals associated with transmitting antenna (Tx)and receiving antenna (Rx) pairs of devices within the localized network(e.g., consumption devices 110, 112, 116 of FIG. 1 and IOT device 108 ofFIG. 1 ). Based on the received wireless signals, control circuitry 1226of networking equipment 1224 may determine CSI data.

Based on the CSI data received at 1302, 1304, and 1306, controlcircuitry 1226 of networking equipment 1224 (and/or control circuitry1211 of server 1204 of FIG. 12 , which may correspond to analyticsserver 118) may build a list of connected devices and any motiondetected within the localized network (e.g., associated with a householdof user 106 of FIG. 1 ), and may determine a baseline of activity (e.g.,streaming traffic) associated with the localized network. Within thelist of connected devices, the control circuitry may identify andclassify each device, e.g., the control circuitry may identify whichdevices are consumption devices, and what type of consumption device,based on the speed at which content is streamed, and/or othercharacteristics. The control circuitry may generate a map (e.g., map 200of FIG. 2 ) based on a determined initial state, location and list ofthe connected devices, indicative of a location of consumption deviceswith respect to the networking equipment in the building or area. Insome embodiments, the map may be generated based on one or more databaserecords comprising CSI data (e.g., information stored in the datastructure 300 of FIG. 3 ). In some embodiments, the control circuitrymay initialize user presence within a vicinity of the identifiednetwork-connected devices and generate user profiles (e.g., indicated incategory 318 of table 316) for such users.

At 1308, control circuitry (e.g., control circuitry 1104) of aconsumption device (e.g., TV 116 of FIG. 1 ), which may be implementinga media application, may subscribe to user presence information, e.g.,by way of an API call to analytics server 118 (e.g., in communicationwith router 102).

At 1310, using a time series of the wireless signal characteristics(e.g., RSSI and CSI data) determined by router 102 (and/or analyticsserver 118) based on data transmitted from access points, consumptiondevices, and/or IOT devices in the localized network, user presenceand/or human motion information in a vicinity of consumption devices maybe computed. For example, control circuitry of networking equipment(e.g., control circuitry 1226 of networking equipment 1224) maydetermine user presence information that user 106 has exited a vicinityof consumption device 116 based on the wireless signal characteristics,as shown in the example of FIG. 4 .

At 1312, router 102 (and/or analytics server 118) may transmit anotification of no human presence in a vicinity of consumption device116, based on the media application running at least in part onconsumption device 116 having subscribed to such notifications and basedon the computation at 1310.

At 1314, the wireless signal-sensing application, and/or the mediaapplication running at least in part on consumption device 116, maytransmit an indication to supplemental content server 1301 to modifypresentation of supplement content. For example, the indication mayconvey to the advertisement server that the user is not present in thevicinity of consumption device 116, and thus supplemental content server1301 should refrain from transmitting, or otherwise stop or pause thepresentation of, supplemental content.

FIG. 14 is a flowchart of a detailed illustrative process fordetermining user presence information, in accordance with someembodiments of this disclosure. In various embodiments, the individualsteps of process 1400 may be implemented by one or more components ofthe devices and systems of FIGS. 1-12 . Although the present disclosuremay describe certain steps of process 1300 (and of other processesdescribed herein) as being implemented by certain components of thedevices and systems of FIGS. 1-12 , this is for purposes of illustrationonly, and it should be understood that other components of the devicesand systems of FIGS. 1-12 may implement those steps instead.

At 1402, a consumption device (e.g., TV 116 of FIG. 1 , executing amedia application) may receive a request to play a first media asset ata first time. In response to the request, the first media asset may becaused to be generated for display at the consumption device. In someembodiments, the first media asset may be generated for presentationusing wireless signals transmitted from networking equipment (e.g.,router 102, access point 104, access point 105) to the consumptiondevice over a wireless network (e.g., a home Wi-Fi network).

At 1404, control circuitry (e.g., control circuitry 1104) of theconsumption device (e.g., device 1101 of FIG. 1 ) may identify a userinteraction with playing of the first media asset. For example, thecontrol circuitry may identify a command from a user (e.g., user 106 ofFIG. 1 ), such as a command to pause the first media asset, a command tochange a channel associated with the first media asset or to causepresentation of a different media asset from the same or different mediacontent source (e.g., media content source 1202 of FIG. 12 ), afast-forward or rewind command, or any other suitable user interaction.

At 1406, in response to the identified user interaction, the controlcircuitry may determine historical wireless signal characteristics ofthe wireless network (e.g., at the time of the user interaction). Forexample, the media application (e.g., running at consumption device 116)may transmit an indication to networking equipment (e.g., controlcircuitry 1226 of networking equipment 1224 of FIG. 12 , or to server1204 of FIG. 12 ) that a user interaction was received, and thenetworking equipment may store an indication of the wireless signalcharacteristics and that such wireless signal characteristics correspondto a time when a user was in a vicinity of the consumption device (e.g.,based on the inference that since a command was received at consumptiondevice, the user was within a predefined vicinity of the consumptiondevice). In some embodiments, a user profile associated with the viewingsession of the first media asset may be identified and associated withthe determined wireless signal characteristics.

At 1408, control circuitry (e.g., control circuitry 1104) of theconsumption device (e.g., device 1101 of FIG. 1 ) may receive request toplay a second media asset (e.g. media asset 402) at second time (e.g.,later than the first time at which the first media asset is requestedand interacted with).

At 1410, control circuitry (e.g., control circuitry 1226 of networkingequipment 1224 of FIG. 12 ) may determine current wireless signalcharacteristics of the wireless network while second media asset (e.g.media asset 402) is generated for presentation at the consumption device(e.g., device 1101 of FIG. 1 ). For example, the control circuitry maydetermine CSI data and/or RSSI data associated with the consumptionsession of the second media asset.

At 1412, while the second media asset is generated for presentation, thecontrol circuitry (e.g., control circuitry 1226 of networking equipment1224 of FIG. 12 ) may determine user presence information of a user bycomparing current wireless signal characteristics of the wirelessnetwork (e.g., identified during the presentation of the second mediaasset) to the historical wireless signal characteristics of the wirelessnetwork (e.g., associated with the consumption session of the firstmedia asset). In some embodiments, the historical wireless signalcharacteristics may comprise any suitable number of sets ofcharacteristics from prior consumption sessions, associated with theparticular physical location (e.g., household of user 106).

At 1414, the control circuitry (e.g., control circuitry 1226 ofnetworking equipment 1224 of FIG. 12 and/or control circuitry 1211 ofserver 1204) may determine whether the user presence informationindicates the user (e.g., user 106 of FIG. 1 ) is in the vicinity ofconsumption device (e.g., TV 116 of FIG. 1 ). In some embodiments, thisdetermination may be made based on an amount of similarity or similarityscore between the current wireless signal characteristics and aparticular set of historical wireless signal characteristics associatedwith an indication that the user is absent from a vicinity of theconsumption device or is present in the vicinity of the consumptiondevice (e.g., a heuristic-based analysis). In some embodiments one ormore machine learning models (e.g., machine learning model 800 of FIG. 8) may be employed in the determination of whether the user presenceinformation indicates the user is in the vicinity of the consumptiondevice.

At 1414, if the control circuitry (e.g., control circuitry 1226 ofnetworking equipment 1224 of FIG. 12 and/or control circuitry 1211 ofserver 1204) determines the user is in the vicinity of the consumptiondevice (e.g., consumption device 116), processing may return to 1410, tocontinue monitoring wireless signal characteristics of the consumptionsession and user presence information. On the other hand, if the controlcircuitry determines the user is not in the vicinity of the consumptiondevice and the second media asset is being generated for display, at1415, control circuitry (e.g., of consumption device 116 and/or a remoteserver) may modify the presentation of the second media asset at theconsumption device based on the user presence information (e.g., pausethe presentation of the second media asset or pause insertion ofsupplemental content from supplemental content server 1301). Forexample, the networking equipment and/or analytics server may transmitan indication to the media application, e.g., associated with mediacontent source 1202 and presenting content on the consumption device,indicating the user presence information.

At 1418, the control circuitry (e.g., control circuitry 1226 ofnetworking equipment 1224 of FIG. 12 ) may determine current wirelesssignal characteristics of the wireless network while the second mediaasset is modified (e.g., paused). At 1420, the control circuitry maydetermine user presence information of the user (e.g., user 106) bycomparing current wireless signal characteristics of the wirelessnetwork (e.g., while media asset 402 is paused) to the historicalwireless signal characteristics of the wireless network. 1420 may beperformed in a similar manner as 1412 to continuously determine userpresence information.

At 1422, the control circuitry (e.g., control circuitry 1226 ofnetworking equipment 1224 of FIG. 12 ) may determine whether the userpresence information indicates the user (e.g., user 106 of FIG. 1 ) isin a vicinity of the consumption device (e.g., TV 116 of FIG. 1 ). Ifthe user presence information indicates the user is not in the vicinityof (e.g., remains absent from the vicinity of) the consumption device,processing may return to 1418 to continue monitoring the surroundingenvironment of the consumption device. On the other hand, if the userpresence indicates the user has returned to be within the vicinity ofthe consumption device, processing may proceed to 1424.

At 1424, control circuitry (e.g., of consumption device 116 and/or aremote server) may modify the presentation of the second media asset atthe consumption device based on the user presence information (e.g.,resume the presentation of the second media asset or cause insertion ofsupplemental content). For example, the networking equipment and/oranalytics server may transmit an indication to the media application,e.g., associated with media content source 1202 and presenting contenton the consumption device, indicating the user presence information.

FIG. 15 is a flowchart of a detailed illustrative process for using amachine learning model to determine user presence information, inaccordance with some embodiments of this disclosure. In variousembodiments, the individual steps of process 1500 may be implemented byone or more components of the devices and systems of FIGS. 1-12 .Although the present disclosure may describe certain steps of process1500 (and of other processes described herein) as being implemented bycertain components of the devices and systems of FIGS. 1-12 , this isfor purposes of illustration only, and it should be understood thatother components of the devices and systems of FIGS. 1-12 may implementthose steps instead.

At 1502, control circuitry (e.g., control circuitry of consumptiondevice 116 of FIG. 1 implementing a media application) may monitor userinteractions with a plurality of media assets generated for display at aconsumption device (e.g., TV 116) at respective times. For example, eachtime a media asset is consumed at a particular consumption device, thecontrol circuitry may determine information related to times when usercommands (e.g., pause, channel changes) are received.

At 1504, the control circuitry (e.g., control circuitry 1226 ofnetworking equipment 1224 of FIG. 12 ) may determine historical wirelesssignal characteristics at the times of user interactions identified asindicative of a user being in a vicinity of the consumption device(e.g., TV 116). For example, the media application may transmitinformation related to the times of the user interactions, and thecontrol circuitry may correlate the detected wireless signalcharacteristics (e.g., detected by router 102 of FIG. 1 ) with the timesof the user interactions, e.g., to identify which sets of wirelesssignal characteristics (e.g., CSI data) correspond to instances when theuser is in the vicinity of the consumption devices, as well as whichsets of wireless signal characteristics correspond to instances when theuser is not in the vicinity of the consumption device (e.g., if theconsumption device is determined to be off; based on information fromother sensors indicating the user is in another room such as, forexample, a smart lock being interacted within another room, or a fitnessdevice indicating the user is exercising in another room or sleeping,etc.).

At 1506, the control circuitry (e.g., control circuitry 1226 ofnetworking equipment 1224 of FIG. 12 and/or control circuitry 1211 ofserver 1204 of FIG. 12 ) may generate, based on the historical and/orcurrent wireless signal characteristics, a map (e.g., map 200 of FIG. 2) of a household in which the consumption device (e.g., consumptiondevice 116 of FIG. 1 ) is located. For example, map 200 may identifycurrent human presence information in a particular room, locations andstatuses of consumption devices, IOT devices, network equipment, certainrooms of the physical network, etc. In some embodiments, map 200 may begenerated based on information stored at data structure 300 of FIG. 3 .

At 1508, the historical wireless signal characteristics and/or thegenerated map data may be used (e.g., by control circuitry 1226 ofnetworking equipment 1224 of FIG. 12 ) to train one or more machinelearning models (e.g., machine learning model 800 of FIG. 8 ). Forexample, the machine learning model may be trained to recognize patternsand correlations between certain wireless signal characteristics anduser presence within a predefined vicinity of a consumption device. Insome embodiments, the machine learning model may be trained to recognizecertain user characteristics associated with certain user profiles,locations of objects in the household, and may learn to differentiatepets (e.g., a dog) from human users. In some embodiments, the machinelearning model may be implemented on the networking equipment and/or aremote server.

At 1510, current wireless signal characteristics (and/or map data),detected during presentation of the media asset (e.g., media asset 402of FIG. 4 ) currently being generated for display, may be input to themachine learning model (e.g., machine learning model 800 of FIG. 8 ). Insome embodiments, preprocessing techniques may be employed on thecurrent wireless signal characteristics for input to the machinelearning model.

At 1512, control circuitry (e.g., control circuitry 1226 of networkingequipment 1224 of FIG. 12 , implementing a wireless signal-sensingapplication) may receive output from the machine learning modelindicative of a user presence determination based on the currentwireless signal characteristics. In some embodiments, the wirelesssignal-sensing application (e.g., running on router 102 and/or analyticsserver 118) may transmit the user presence determination to a mediaapplication (e.g., running on consumption device 116 and/or server1204), and the media application may determine whether to modifypresentation of the media asset currently being played based on the userpresence information.

FIG. 16 is a flowchart of a detailed illustrative process for modifyingpresentation of a media asset based on user presence information, inaccordance with some embodiments of this disclosure. In variousembodiments, the individual steps of process 1600 may be implemented byone or more components of the devices and systems of FIGS. 1-12 .Although the present disclosure may describe certain steps of process1600 (and of other processes described herein) as being implemented bycertain components of the devices and systems of FIGS. 1-12 , this isfor purposes of illustration only, and it should be understood thatother components of the devices and systems of FIGS. 1-12 may implementthose steps instead.

At 1602, the control circuitry (e.g., control circuitry 1226 ofnetworking equipment 1224 of FIG. 12 and/or control circuitry 1211 ofserver 1204 of FIG. 12 ) may generate, based on the historical and/orcurrent wireless signal characteristics, a map (e.g., map 200 of FIG. 2) of a household in which the consumption device (e.g., consumptiondevice 116 of FIG. 1 ) is located. For example, map 200 may identifycurrent human presence information in a particular room, locations andstatuses of consumption devices, IOT devices, network equipment, certainrooms of the physical network, etc. In some embodiments, map 200 may begenerated based on information stored at data structure 300 of FIG. 3 .

At 1604, the control circuitry may generate a profile for each user inthe household corresponding to the map (e.g., map 200 of FIG. 2 ). Forexample, as shown in FIG. 3 , historical wireless signal characteristicsdatabase 300 may store profiles for a plurality of users in thehousehold (e.g., “User A” in column 318 of table 316, which maycorrespond to user 106 of FIG. 5 ; and “User B” in column 318 of table316, which may correspond to user 502 of FIG. 5 ). The user profile maybe associated with various types of information (e.g., most commonconsumption locations for each user; current location of a user; certaintraits of a user, such as, for example, a gait of a user, height of auser, etc.).

In some embodiments, the control circuitry may determine consumptiondata (e.g., regarding a number of users present during presentation ofthe media asset and/or supplemental content, how often content ismodified, how often users move out of vicinity of consumption device)based on user presence information. Such consumption data may beassociated with a particular user profile or household, and may beprovided to optimize and tailor content. For example, the consumptiondata may be provided to media content providers, which may tailorrecommendations of media assets and/or supplemental content based ondetermined consumption data.

At 1606, the control circuitry may identify a profile of a first userconsuming a media asset at consumption device. For example, the controlcircuitry may determine that the current wireless signal characteristicsare indicative of “User A,” e.g., user 106 of FIG. 1 , when taking intoaccount a height of the user indicated by the wireless signalcharacteristics and/or based on a comparison of the current wirelesssignal characteristics to historical wireless signal characteristicsassociated with that user. In some embodiments, the identity of the usermay be determined based on the user logging in to his or her mediaprofile, and/or based on the user being associated with a particularconsumption device.

At 1608, the control circuitry may determine that a second user (e.g.,user 502) has entered the vicinity of the consumption device, based onwireless signal characteristics of the environment surrounding theconsumption device (e.g., TV 116 of FIG. 1 ). For example, the controlcircuitry may determine that the height of the second user, as indicatedby the wireless signal characteristics, corresponds to “User B” (e.g.,user 502 of FIG. 5 ) as indicated in column 318 of table 316.

At 1610, the control circuitry may determine whether the second user isbelow a predefined age (e.g., 15 years old). In some embodiments, thismay be based on the determined height of the user, e.g., by comparingthe determined height of the user to a predefined threshold (e.g., 4feet), and determining the height indicated in the user profile (e.g.,3′9′) is less than the threshold height.

At 1612, if the control circuitry determines at 1610 that the seconduser is below the predefined age, the control circuitry (e.g., controlcircuitry 1226 of networking equipment 1224 of FIG. 12 and/or controlcircuitry 1104 of consumption device 116) may determine whether themedia asset (e.g., media asset 402) corresponds to mature content. Forexample, the control circuitry may determine metadata of a current sceneof the media asset or the media asset as a whole may be associated witha particular parent rating (e.g., “R”) which is not suitable for usersbelow a certain age.

At 1614, if the control circuitry determines at 1612 that the mediaasset (e.g., media asset 402), or current portion thereof, is associatedwith mature content, the control circuitry may cause the modification ofthe presentation of the media asset at the consumption device. Forexample, the control circuitry (e.g., of consumption device 116 of FIG.1 ) may transmit an instruction to a remote server (e.g., media contentsource 1202) to pause or stop, or lower the volume of, the media asset(e.g., media asset 402 of FIG. 4 ). In some embodiments, if the controlcircuitry determines the second user (e.g., the child user) has exitedthe vicinity of the consumption device, the control circuitry mayfurther modify the presentation of the media asset.

If the control circuitry determines at 1610 that the second user is notbelow the predefined age, or determines at 1612 that the media assetdoes not correspond to mature content, processing may proceed to 1616.At 1616, the control circuitry may determine, based on the currentwireless signal characteristics and user presence information, whetherthe first user (e.g., user 106) has exited the predefined vicinity ofthe consumption device. If the control circuitry determines that thefirst user is still within the predefined vicinity of the consumptiondevice, processing may proceed to 1618, where the media asset (e.g.,media asset 402 of FIG. 4 ) may continue to be generated forpresentation. On the other hand, if the control circuitry determinesthat the first user (e.g., user 106 of FIG. 1 ) has exited the vicinityof the media asset, processing may proceed to 1614. At 1614, the mediaasset may be, e.g., paused or stopped, and may remain paused or stoppeduntil the control circuitry detects, based on user presence information,that the first user has re-entered the vicinity of the consumptiondevice.

FIG. 17 is a flowchart of a detailed illustrative process fortransmitting wireless signal characteristics to a service provider basedon an authorization level of the service provider, in accordance withsome embodiments of this disclosure. In various embodiments, theindividual steps of process 1700 may be implemented by one or morecomponents of the devices and systems of FIGS. 1-12 . Although thepresent disclosure may describe certain steps of process 1700 (and ofother processes described herein) as being implemented by certaincomponents of the devices and systems of FIGS. 1-12 , this is forpurposes of illustration only, and it should be understood that othercomponents of the devices and systems of FIGS. 1-12 may implement thosesteps instead.

At 1702, control circuitry (e.g., control circuitry 1226 of networkingequipment 1224 of FIG. 12 ) may determine wireless signalcharacteristics of a wireless network (e.g., a localized network in ahousehold of user 106). For example, control circuitry may monitorwireless signal characteristics, e.g., CSI data, associated withconsumption of media assets generated for display on a plurality ofdevices within the household, and associated with one or more users ofthe household. In some embodiments, the wireless signal characteristicsmay be used to determine user presence information, e.g., whether aparticular user is within a predefined vicinity of a consumption device(e.g., television 116 of FIG. 1 ).

At 1704, the control circuitry (e.g., control circuitry 1226 ofnetworking equipment 1224 of FIG. 12 and/or control circuitry 1211 ofserver 1204 of FIG. 12 ) may generate, based on the historical and/orcurrent wireless signal characteristics, a map (e.g., map 200 of FIG. 2) of a household in which the consumption device (e.g., consumptiondevice 116 of FIG. 1 ) is located. For example, map 200 may identifycurrent human presence information in a particular room, locations andstatuses of consumption devices, IOT devices, network equipment, certainrooms of the physical network, etc. In some embodiments, map 200 may begenerated based on information stored at data structure 300 of FIG. 3 .

At 1706, the control circuitry (e.g., control circuitry 1226 ofnetworking equipment 1224 of FIG. 12 and/or control circuitry 1211 ofserver 1204 of FIG. 12 ) may receive an API request from a serviceprovider (e.g., a service provider associated with autonomous cleaningdevice 1018 of FIG. 10 ). For example, the API request may comprise arequest to access certain wireless signal characteristics informationand/or map data from the localized network (e.g., within a household ofuser 106).

At 1708, the control circuitry (e.g., control circuitry 1226 ofnetworking equipment 1224 of FIG. 12 and/or control circuitry 1211 ofserver 1204 of FIG. 12 ) may determine whether the particular serviceprovider is authorized to access the information requested in the APIrequest, e.g., based on an authorization level of the service provider.In some embodiments, the wireless signal-sensing application (e.g.,running on the networking equipment 1224 and/or server 1204 of FIG. 12 )may determine whether the service provider is authorized to access theinformation based on the type of services provided by the serviceprovider. For example, the service provider associated with autonomouscleaning device 1018 of FIG. 10 may, according to a default setting,only be permitted access to information regarding the absence of usersfrom a particular room included in map 200, whereas other services(e.g., security services) may additionally be provided access to anumber of humans in a particular room. In some embodiments, the controlcircuitry may determine whether the particular service provider isauthorized to access the information requested in the API request basedon user selections (e.g., by way of interface 1001 of FIG. 10 ).

At 1710, the control circuitry (e.g., control circuitry 1226 ofnetworking equipment 1224 of FIG. 12 and/or control circuitry 1211 ofserver 1204 of FIG. 12 ) may identify, based on the authorization levelof the service provider, at least one portion of the map and at leastone of the wireless signal characteristics to transmit to the serviceprovider. For example, for the service provider associated withautonomous cleaning device 1018 of FIG. 10 , the control circuitry mayidentify, based on the determined authorization level for such serviceprovider, that the service provider is permitted to receive map datacorresponding to living room 202 and related human presence informationindicative of whether any users are present in living room 202, e.g., toenable autonomous cleaning device 1018 to clean living room 202 withoutcolliding with users. However, the control circuitry may determine thatthe service provider associated with autonomous cleaning device 1018 isnot permitted to access user presence information indicative of a numberof users in a particular room.

At 1712, the control circuitry (e.g., control circuitry 1226 ofnetworking equipment 1224 of FIG. 12 and/or control circuitry 1211 ofserver 1204 of FIG. 12 ) may transmit, via the API, the identified atleast one portion of the map and at least one of the wireless signalcharacteristics to the service provider.

The processes discussed above are intended to be illustrative and notlimiting. One skilled in the art would appreciate that the steps of theprocesses discussed herein may be omitted, modified, combined and/orrearranged, and any additional steps may be performed without departingfrom the scope of the invention. More generally, the above disclosure ismeant to be illustrative and not limiting. Only the claims that followare meant to set bounds as to what the present invention includes.Furthermore, it should be noted that the features and limitationsdescribed in any one embodiment may be applied to any other embodimentherein, and flowcharts or examples relating to one embodiment may becombined with any other embodiment in a suitable manner, done indifferent orders, or done in parallel. In addition, the systems andmethods described herein may be performed in real time. It should alsobe noted that the systems and/or methods described above may be appliedto, or used in accordance with, other systems and/or methods.

1. A method comprising: identifying a user interaction with playing of afirst media asset generated for presentation at a consumption device,wherein the first media asset is generated for presentation usingwireless signals transmitted from networking equipment to theconsumption device over a wireless network; in response to theidentified user interaction with the playing of the first media asset:determining historical wireless signal characteristics of the wirelessnetwork; while a second media asset is generated for presentation at theconsumption device: determining current wireless signal characteristicsof the wireless network; determining user presence information bycomparing current wireless signal characteristics of the wirelessnetwork to the historical wireless signal characteristics of thewireless network; and modifying the presentation of the second mediaasset at the consumption device based on the user presence information.2. The method of claim 1, wherein: the wireless network is a Wi-Finetwork, and the historical wireless signal characteristics and currentwireless signal characteristics correspond to channel state information;and modifying the presentation of the second media asset at theconsumption device comprises pausing or stopping presentation of thesecond media asset.
 3. The method of claim 1, wherein modifying thepresentation of the second media asset at the consumption device basedon the user presence information comprises: determining, based on theuser presence information, a user has exited a vicinity of theconsumption device and entered a vicinity of an additional consumptiondevice; and causing the second media asset to be generated for displayat the additional consumption device.
 4. The method of claim 1, whereindetermining the user presence information comprises: training a machinelearning model using the historical wireless signal characteristics,wherein the machine learning model is trained to output a determinationof the user presence information; inputting the current wireless signalcharacteristics to the trained machine learning model; and determining,based on the determination of the user presence information output bytrained machine learning model, whether a user is within a vicinity ofthe consumption device to enable consumption of the second media asset.5. The method of claim 4, wherein the historical wireless signalcharacteristics further comprise: wireless signal characteristics duringa plurality of times during which the user is determined not to bewithin the vicinity of the consumption device while a media asset isbeing generated for presentation; and wireless signal characteristicsduring a plurality of times during which the user is determined to bewithin the vicinity of the consumption device while a media asset isbeing generated for presentation.
 6. The method of claim 1, wherein: thesecond media asset is provided by a content provider to a group userprofile associated with a plurality of user profiles, and the methodfurther comprises: determining, by the content provider and based on theuser presence information, that a first user associated with a firstuser profile is in a vicinity of the consumption device; andautomatically logging in the first user to the first user profile. 7.The method of claim 1, wherein modifying the presentation of the secondmedia asset at the consumption device based on the user presenceinformation comprises instructing a server to refrain from providingsupplemental content to the consumption device.
 8. The method of claim1, further comprising: determining, based on the user presenceinformation, a plurality of times that the user exited a vicinity of theconsumption device during which a particular type of supplementalcontent was generated for presentation; and determining a level of userinterest in the particular type of supplemental content based on thedetermined plurality of times.
 9. The method of claim 1, furthercomprising: generating a map of a household in which the consumptiondevice is located, wherein the map reflects a location of theconsumption device and a location of the networking equipment; andgenerating a profile for each user in the household; wherein determiningthe user presence information by comparing the current wireless signalcharacteristics of the wireless network to the historical wirelesssignal characteristics of the wireless network comprises: determiningwhether a user in a vicinity of the consumption device is associatedwith a profile indicating an age of the user is below a predefined age;and modifying the presentation of the second media asset at theconsumption device based on the user presence information is performedin response to determining the user in the vicinity of the consumptiondevice is associated with the profile indicating the age of the user isbelow the predefined age.
 10. The method of claim 1, further comprising:generating a map of a household in which the consumption device islocated, wherein the map reflects a location of the consumption deviceand a location of the networking equipment; and generating a profile foreach user in the household; wherein determining the user presenceinformation by comparing the current wireless signal characteristics ofthe wireless network to the historical wireless signal characteristicsof the wireless network comprises: determining that a first user of aplurality of users is in a vicinity of the consumption device;determining the first user has exited the vicinity of the consumptiondevice; and determining that a second user of the plurality of users hasentered the vicinity of the consumption device while the first user isoutside the vicinity of the consumption device; and modifying thepresentation of the second media asset at the consumption device basedon the user presence information comprises: in response to determiningthat the first user of the plurality of users is in the vicinity of theconsumption device, causing the presentation of the second media assetto be paused or stopped; and in response to determining that the seconduser has entered the vicinity of the consumption device while the firstuser is outside the vicinity of the consumption device, declining toresume the second media asset.
 11. A system comprising: memory; controlcircuitry configured to: identify a user interaction with playing of afirst media asset generated for presentation at a consumption device,wherein the first media asset is generated for presentation usingwireless signals transmitted from networking equipment to theconsumption device over a wireless network; in response to theidentified user interaction with the playing of the first media asset:determine historical wireless signal characteristics of the wirelessnetwork, wherein the historical wireless signal characteristics arestored in the memory; while a second media asset is generated forpresentation at the consumption device: determine current wirelesssignal characteristics of the wireless network; determine user presenceinformation by comparing current wireless signal characteristics of thewireless network to the historical wireless signal characteristics ofthe wireless network; and modify the presentation of the second mediaasset at the consumption device based on the user presence information.12. The system of claim 11, wherein: the wireless network is a Wi-Finetwork, and the historical wireless signal characteristics and currentwireless signal characteristics correspond to channel state information;and the control circuitry is configured to modify the presentation ofthe second media asset at the consumption device by pausing or stoppingpresentation of the second media asset.
 13. The system of claim 11,wherein the control circuitry is configured to modify the presentationof the second media asset at the consumption device comprises based onthe user presence information by: determining, based on the userpresence information, a user has exited a vicinity of the consumptiondevice and entered a vicinity of an additional consumption device; andcausing the second media asset to be generated for display at theadditional consumption device.
 14. The system of claim 11, wherein thecontrol circuitry is configured to determine the user presenceinformation by: training a machine learning model using the historicalwireless signal characteristics, wherein the machine learning model istrained to output a determination of the user presence information;inputting the current wireless signal characteristics to the trainedmachine learning model; and determining, based on the determination ofthe user presence information output by trained machine learning model,whether a user is within a vicinity of the consumption device to enableconsumption of the second media asset.
 15. The system of claim 14,wherein the historical wireless signal characteristics further comprise:wireless signal characteristics during a plurality of times during whichthe user is determined not to be within the vicinity of the consumptiondevice while a media asset is being generated for presentation; andwireless signal characteristics during a plurality of times during whichthe user is determined to be within the vicinity of the consumptiondevice while a media asset is being generated for presentation.
 16. Thesystem of claim 11, wherein: the second media asset is provided by acontent provider to a group user profile associated with a plurality ofuser profiles, and the control circuitry is further configured to:determine, by the content provider and based on the user presenceinformation, that a first user associated with a first user profile isin a vicinity of the consumption device; and automatically log in thefirst user to the first user profile.
 17. The system of claim 11,wherein the control circuitry is configured to modify the presentationof the second media asset at the consumption device based on the userpresence information by instructing a server to refrain from providingsupplemental content to the consumption device.
 18. The system of claim11, wherein the control circuitry is further configured to: determine,based on the user presence information, a plurality of times that theuser exited a vicinity of the consumption device during which aparticular type of supplemental content was generated for presentation;and determine a level of user interest in the particular type ofsupplemental content based on the determined plurality of times.
 19. Thesystem of claim 11, wherein the control circuitry is further configuredto: generate a map of a household in which the consumption device islocated, wherein the map reflects a location of the consumption deviceand a location of the networking equipment; and generate a profile foreach user in the household; determine the user presence information by:determining whether a user in a vicinity of the consumption device isassociated with a profile indicating an age of the user is below apredefined age; and modifying the presentation of the second media assetat the consumption device based on the user presence information isperformed in response to determining the user in the vicinity of theconsumption device is associated with the profile indicating the age ofthe user is below the predefined age.
 20. The system of claim 11,wherein the control circuitry is further configured to: generate a mapof a household in which the consumption device is located, wherein themap reflects a location of the consumption device and a location of thenetworking equipment; and generate a profile for each user in thehousehold; determine the user presence information by: determining thata first user of a plurality of users is in a vicinity of the consumptiondevice; determining the first user has exited the vicinity of theconsumption device; and determining that a second user of the pluralityof users has entered the vicinity of the consumption device while thefirst user is outside the vicinity of the consumption device; and modifythe presentation of the second media asset at the consumption devicebased on the user presence information by: in response to determiningthat the first user of the plurality of users is in the vicinity of theconsumption device, causing the presentation of the second media assetto be paused or stopped; and in response to determining that the seconduser has entered the vicinity of the consumption device while the firstuser is outside the vicinity of the consumption device, declining toresume the second media asset.